Grammalecte  Changes On Branch 42fa8f123aa4ff48

Changes In Branch gcerw Through [42fa8f123a] Excluding Merge-Ins

This is equivalent to a diff from 749f9374be to 42fa8f123a

2020-04-06
21:03
[graphspell] add suggestion for pécunier check-in: 9b2711f688 user: olr tags: trunk, graphspell
20:43
[tb][js] update gce_worker check-in: 9fd78a9ee5 user: olr tags: tb, gcerw
20:01
[core][js] gc engine: code rewriting check-in: 42fa8f123a user: olr tags: core, gcerw
19:12
[core][py] add echo to gc_engine_func.py check-in: e9d7f69946 user: olr tags: core, gcerw
13:15
merge trunk check-in: 1c5bdb25b6 user: olr tags: gcerw
12:43
[fr] ajustements check-in: 749f9374be user: olr tags: trunk, fr
10:17
[fr] ajustements check-in: 0e3d53de1d user: olr tags: trunk, fr

Modified gc_core/js/lang_core/gc_engine.js from [224c579d52] to [6a386c1d36].

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// Grammar checker engine

/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global require, exports, console */

"use strict";

${string}
${regex}
${map}


if(typeof(process) !== 'undefined') {
if (typeof(process) !== 'undefined') {
    var gc_engine_func = require("./gc_engine_func.js");
    var gc_options = require("./gc_options.js");
    var gc_rules = require("./gc_rules.js");
    var gc_rules_graph = require("./gc_rules_graph.js");
    var cregex = require("./cregex.js");
    var text = require("../text.js");
}
} else if (typeof(require) !== 'undefined') {
else if (typeof(require) !== 'undefined') {
    var gc_engine_func = require("resource://grammalecte/${lang}/gc_engine_func.js");
    var gc_options = require("resource://grammalecte/${lang}/gc_options.js");
    var gc_rules = require("resource://grammalecte/${lang}/gc_rules.js");
    var gc_rules_graph = require("resource://grammalecte/${lang}/gc_rules_graph.js");
    var cregex = require("resource://grammalecte/${lang}/cregex.js");
    var text = require("resource://grammalecte/text.js");
}


function capitalizeArray (aArray) {
    // can’t map on user defined function??
    let aNew = [];
    for (let i = 0; i < aArray.length; i = i + 1) {
        aNew[i] = aArray[i].slice(0,1).toUpperCase() + aArray[i].slice(1);
    }
    return aNew;
}


// data
let _sAppContext = "";                                  // what software is running
let _dOptions = null;
let _dOptionsColors = null;
let _oSpellChecker = null;
let _oTokenizer = null;
let _aIgnoredRules = new Set();


function echo (x) {
    console.log(x);
    return true;
}


var gc_engine = {

    //// Informations

    lang: "${lang}",
    locales: ${loc},
    pkg: "${implname}",
    name: "${name}",
    version: "${version}",
    author: "${author}",

    //// Tools
    oSpellChecker: null,
    oTokenizer: null,

    //// Data
    aIgnoredRules: new Set(),
    oOptionsColors: null,

    //// Initialization

    load: function (sContext="JavaScript", sColorType="aRGB", sPath="") {
        try {
            if(typeof(process) !== 'undefined') {
            if (typeof(process) !== 'undefined') {
                var spellchecker = require("../graphspell/spellchecker.js");
                _oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            } else if (typeof(require) !== 'undefined') {
                this.oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            }
            else if (typeof(require) !== 'undefined') {
                var spellchecker = require("resource://grammalecte/graphspell/spellchecker.js");
                _oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            } else {
                _oSpellChecker = new SpellChecker("${lang}", sPath, "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
                this.oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            }
            else {
                this.oSpellChecker = new SpellChecker("${lang}", sPath, "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            }
            _sAppContext = sContext;
            _dOptions = gc_options.getOptions(sContext).gl_shallowCopy();     // duplication necessary, to be able to reset to default
            _dOptionsColors = gc_options.getOptionsColors(sContext, sColorType);
            _oTokenizer = _oSpellChecker.getTokenizer();
            _oSpellChecker.activateStorage();
            this.oOptionsColors = gc_options.getOptionsColors(sContext, sColorType);
            this.oTokenizer = this.oSpellChecker.getTokenizer();
            this.oSpellChecker.activateStorage();
            gc_engine_func.load(sContext, this.oSpellChecker)
            gc_options.load(sContext)
        }
        catch (e) {
            console.error(e);
        }
    },

    getSpellChecker: function () {
        return _oSpellChecker;
        return this.oSpellChecker;
    },

    //// Rules

    getRules: function (bParagraph) {
        if (!bParagraph) {
            return gc_rules.lSentenceRules;
        }
        return gc_rules.lParagraphRules;
    },

    ignoreRule: function (sRuleId) {
        _aIgnoredRules.add(sRuleId);
        this.aIgnoredRules.add(sRuleId);
    },

    resetIgnoreRules: function () {
        _aIgnoredRules.clear();
        this.aIgnoredRules.clear();
    },

    reactivateRule: function (sRuleId) {
        _aIgnoredRules.delete(sRuleId);
        this.aIgnoredRules.delete(sRuleId);
    },

    listRules: function* (sFilter=null) {
        // generator: returns tuple (sOption, sLineId, sRuleId)
        try {
            for (let [sOption, lRuleGroup] of this.getRules(true)) {
                for (let [,, sLineId, sRuleId,,] of lRuleGroup) {
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            }
        }
        catch (e) {
            console.error(e);
        }
    },

    //// Options

    setOption: function (sOpt, bVal) {
        if (_dOptions.has(sOpt)) {
            _dOptions.set(sOpt, bVal);
        }
    },

    setOptions: function (dOpt) {
        _dOptions.gl_updateOnlyExistingKeys(dOpt);
    },

    getOptions: function () {
        return _dOptions;
    },

    getDefaultOptions: function () {
        return gc_options.getOptions(_sAppContext).gl_shallowCopy();
    },

    resetOptions: function () {
        _dOptions = gc_options.getOptions(_sAppContext).gl_shallowCopy();
    },

    //// Parsing

    parse: function (sText, sCountry="${country_default}", bDebug=false, dOptions=null, bContext=false, bFullInfo=false) {
        // init point to analyse <sText> and returns an iterable of errors or (with option <bFullInfo>) a list of sentences with tokens and errors
        let oText = new TextParser(sText);
        return oText.parse(sCountry, bDebug, dOptions, bContext, bFullInfo);
    }
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            s += "\n";
        }
        return s;
    }

    parse (sCountry="${country_default}", bDebug=false, dOptions=null, bContext=false, bFullInfo=false) {
        // analyses <sText> and returns an iterable of errors or (with option <bFullInfo>) a list of sentences with tokens and errors
        let dOpt = dOptions || _dOptions;
        let bShowRuleId = option('idrule');
        let dOpt = dOptions || gc_options.dOptions;
        let bShowRuleId = gc_options.dOptions.gl_get('idrule', false);
        // parse paragraph
        try {
            this.parseText(this.sText, this.sText0, true, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext);
        }
        catch (e) {
            console.error(e);
        }
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        let lSentences = [];
        let oSentence = null;
        for (let [iStart, iEnd] of text.getSentenceBoundaries(sText)) {
            try {
                this.sSentence = sText.slice(iStart, iEnd);
                this.sSentence0 = this.sText0.slice(iStart, iEnd);
                this.nOffsetWithinParagraph = iStart;
                this.lToken = Array.from(_oTokenizer.genTokens(this.sSentence, true));
                this.lToken = Array.from(gc_engine.oTokenizer.genTokens(this.sSentence, true));
                this.dTokenPos.clear();
                for (let dToken of this.lToken) {
                    if (dToken["sType"] != "INFO") {
                        this.dTokenPos.set(dToken["nStart"], dToken);
                    }
                }
                if (bFullInfo) {
                    oSentence = { "nStart": iStart, "nEnd": iEnd, "sSentence": this.sSentence, "lToken": Array.from(this.lToken) };
                    for (let oToken of oSentence["lToken"]) {
                        if (oToken["sType"] == "WORD") {
                            oToken["bValidToken"] = _oSpellChecker.isValidToken(oToken["sValue"]);
                            oToken["bValidToken"] = gc_engine.oSpellChecker.isValidToken(oToken["sValue"]);
                        }
                    }
                    // the list of tokens is duplicated, to keep all tokens from being deleted when analysis
                }
                this.parseText(this.sSentence, this.sSentence0, false, iStart, sCountry, dOpt, bShowRuleId, bDebug, bContext);
                if (bFullInfo) {
                    oSentence["lGrammarErrors"] = Array.from(this.dSentenceError.values());
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                        if (bDebug) {
                            console.log(">>>> GRAPH: " + sGraphName + " " + sLineId);
                        }
                        sText = this.parseGraph(gc_rules_graph.dAllGraph[sGraphName], sCountry, dOptions, bShowRuleId, bDebug, bContext);
                    }
                }
            }
            else if (!sOption || option(sOption)) {
            else if (!sOption || gc_options.dOptions.gl_get(sOption, false)) {
                for (let [zRegex, bUppercase, sLineId, sRuleId, nPriority, lActions, lGroups, lNegLookBefore] of lRuleGroup) {
                    if (!_aIgnoredRules.has(sRuleId)) {
                    if (!gc_engine.aIgnoredRules.has(sRuleId)) {
                        while ((m = zRegex.gl_exec2(sText, lGroups, lNegLookBefore)) !== null) {
                            let bCondMemo = null;
                            for (let [sFuncCond, cActionType, sWhat, ...eAct] of lActions) {
                                // action in lActions: [ condition, action type, replacement/suggestion/action[, iGroup[, message, URL]] ]
                                try {
                                    bCondMemo = (!sFuncCond || oEvalFunc[sFuncCond](sText, sText0, m, this.dTokenPos, sCountry, bCondMemo));
                                    bCondMemo = (!sFuncCond || gc_engine_func[sFuncCond](sText, sText0, m, this.dTokenPos, sCountry, bCondMemo));
                                    if (bCondMemo) {
                                        switch (cActionType) {
                                            case "-":
                                                // grammar error
                                                //console.log("-> error detected in " + sLineId + "\nzRegex: " + zRegex.source);
                                                let nErrorStart = nOffset + m.start[eAct[0]];
                                                if (!this.dError.has(nErrorStart) || nPriority > this.dErrorPriority.get(nErrorStart)) {
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                                                if (bDebug) {
                                                    console.log("~ " + sText + "  -- " + m[eAct[0]] + "  # " + sLineId);
                                                }
                                                break;
                                            case "=":
                                                // disambiguation
                                                //console.log("-> disambiguation by " + sLineId + "\nzRegex: " + zRegex.source);
                                                oEvalFunc[sWhat](sText, m, this.dTokenPos);
                                                gc_engine_func[sWhat](sText, m, this.dTokenPos);
                                                if (bDebug) {
                                                    console.log("= " + m[0] + "  # " + sLineId, "\nDA:", this.dTokenPos);
                                                }
                                                break;
                                            case ">":
                                                // we do nothing, this test is just a condition to apply all following actions
                                                break;
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            }
        }
    }

    update (sSentence, bDebug=false) {
        // update <sSentence> and retokenize
        this.sSentence = sSentence;
        let lNewToken = Array.from(_oTokenizer.genTokens(sSentence, true));
        let lNewToken = Array.from(gc_engine.oTokenizer.genTokens(sSentence, true));
        for (let oToken of lNewToken) {
            if (this.dTokenPos.gl_get(oToken["nStart"], {}).hasOwnProperty("lMorph")) {
                oToken["lMorph"] = this.dTokenPos.get(oToken["nStart"])["lMorph"];
            }
            if (this.dTokenPos.gl_get(oToken["nStart"], {}).hasOwnProperty("aTags")) {
                oToken["aTags"] = this.dTokenPos.get(oToken["nStart"])["aTags"];
            }
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                    }
                }
            }
            // analysable tokens
            if (oToken["sType"].slice(0,4) == "WORD") {
                // token lemmas
                if (oNode.hasOwnProperty("<lemmas>")) {
                    for (let sLemma of _oSpellChecker.getLemma(oToken["sValue"])) {
                    for (let sLemma of gc_engine.oSpellChecker.getLemma(oToken["sValue"])) {
                        if (oNode["<lemmas>"].hasOwnProperty(sLemma)) {
                            if (bDebug) {
                                console.log("  MATCH: >" + sLemma);
                            }
                            yield { "iToken1": iToken1, "iNode": oNode["<lemmas>"][sLemma] };
                            bTokenFound = true;
                        }
                    }
                }
                // morph arcs
                if (oNode.hasOwnProperty("<morph>")) {
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : gc_engine.oSpellChecker.getMorph(oToken["sValue"]);
                    if (lMorph.length > 0) {
                        for (let sSearch in oNode["<morph>"]) {
                            if (!sSearch.includes("¬")) {
                                // no anti-pattern
                                if (lMorph.some(sMorph  =>  (sMorph.includes(sSearch)))) {
                                    if (bDebug) {
                                        console.log("  MATCH: $" + sSearch);
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                                }
                            }
                        }
                    }
                }
                // regex morph arcs
                if (oNode.hasOwnProperty("<re_morph>")) {
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : gc_engine.oSpellChecker.getMorph(oToken["sValue"]);
                    if (lMorph.length > 0) {
                        for (let sRegex in oNode["<re_morph>"]) {
                            if (!sRegex.includes("¬")) {
                                // no anti-pattern
                                if (lMorph.some(sMorph  =>  (sMorph.search(sRegex) !== -1))) {
                                    if (bDebug) {
                                        console.log("  MATCH: @" + sRegex);
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                    // Suggestion    [ option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL ]
                    // TextProcessor [ option, condition, "~", replacement/suggestion/action, iTokenStart, iTokenEnd, bCaseSvty ]
                    // Disambiguator [ option, condition, "=", replacement/suggestion/action ]
                    // Tag           [ option, condition, "/", replacement/suggestion/action, iTokenStart, iTokenEnd ]
                    // Immunity      [ option, condition, "!", "",                            iTokenStart, iTokenEnd ]
                    // Test          [ option, condition, ">", "" ]
                    if (!sOption || dOptions.gl_get(sOption, false)) {
                        bCondMemo = !sFuncCond || oEvalFunc[sFuncCond](this.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, this.dTags, this.sSentence, this.sSentence0);
                        bCondMemo = !sFuncCond || gc_engine_func[sFuncCond](this.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, this.dTags, this.sSentence, this.sSentence0);
                        if (bCondMemo) {
                            if (cActionType == "-") {
                                // grammar error
                                let [iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL] = eAct;
                                let nTokenErrorStart = (iTokenStart > 0) ? nTokenOffset + iTokenStart : nLastToken + iTokenStart;
                                if (!this.lToken[nTokenErrorStart].hasOwnProperty("bImmune")) {
                                    let nTokenErrorEnd = (iTokenEnd > 0) ? nTokenOffset + iTokenEnd : nLastToken + iTokenEnd;
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                                bChange = true;
                                if (bDebug) {
                                    console.log(`    TEXT_PROCESSOR: [${this.lToken[nTokenStart]["sValue"]}:${this.lToken[nTokenEnd]["sValue"]}]  > ${sWhat}`);
                                }
                            }
                            else if (cActionType == "=") {
                                // disambiguation
                                oEvalFunc[sWhat](this.lToken, nTokenOffset, nLastToken);
                                gc_engine_func[sWhat](this.lToken, nTokenOffset, nLastToken);
                                if (bDebug) {
                                    console.log(`    DISAMBIGUATOR: (${sWhat})  [${this.lToken[nTokenOffset+1]["sValue"]}:${this.lToken[nLastToken]["sValue"]}]`);
                                }
                            }
                            else if (cActionType == ">") {
                                // we do nothing, this test is just a condition to apply all following actions
                                if (bDebug) {
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    _createErrorFromRegex (sText, sText0, sSugg, nOffset, m, iGroup, sLineId, sRuleId, bUppercase, sMsg, sURL, bShowRuleId, sOption, bContext) {
        let nStart = nOffset + m.start[iGroup];
        let nEnd = nOffset + m.end[iGroup];
        // suggestions
        let lSugg = [];
        if (sSugg.startsWith("=")) {
            sSugg = oEvalFunc[sSugg.slice(1)](sText, m);
            sSugg = gc_engine_func[sSugg.slice(1)](sText, m);
            lSugg = (sSugg) ? sSugg.split("|") : [];
        } else if (sSugg == "_") {
            lSugg = [];
        } else {
            lSugg = sSugg.gl_expand(m).split("|");
        }
        if (bUppercase && lSugg.length > 0 && m[iGroup].slice(0,1).gl_isUpperCase()) {
            lSugg = capitalizeArray(lSugg);
        }
        // Message
        let sMessage = (sMsg.startsWith("=")) ? oEvalFunc[sMsg.slice(1)](sText, m) : sMsg.gl_expand(m);
        let sMessage = (sMsg.startsWith("=")) ? gc_engine_func[sMsg.slice(1)](sText, m) : sMsg.gl_expand(m);
        if (bShowRuleId) {
            sMessage += "  #" + sLineId + " / " + sRuleId;
        }
        //
        return this._createError(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext);
    }

    _createErrorFromTokens (sSugg, nTokenOffset, nLastToken, iFirstToken, nStart, nEnd, sLineId, sRuleId, bCaseSvty, sMsg, sURL, bShowRuleId, sOption, bContext) {
        // suggestions
        let lSugg = [];
        if (sSugg.startsWith("=")) {
            sSugg = oEvalFunc[sSugg.slice(1)](this.lToken, nTokenOffset, nLastToken);
            sSugg = gc_engine_func[sSugg.slice(1)](this.lToken, nTokenOffset, nLastToken);
            lSugg = (sSugg) ? sSugg.split("|") : [];
        } else if (sSugg == "_") {
            lSugg = [];
        } else {
            lSugg = this._expand(sSugg, nTokenOffset, nLastToken).split("|");
        }
        if (bCaseSvty && lSugg.length > 0 && this.lToken[iFirstToken]["sValue"].slice(0,1).gl_isUpperCase()) {
            lSugg = capitalizeArray(lSugg);
        }
        // Message
        let sMessage = (sMsg.startsWith("=")) ? oEvalFunc[sMsg.slice(1)](this.lToken, nTokenOffset, nLastToken) : this._expand(sMsg, nTokenOffset, nLastToken);
        let sMessage = (sMsg.startsWith("=")) ? gc_engine_func[sMsg.slice(1)](this.lToken, nTokenOffset, nLastToken) : this._expand(sMsg, nTokenOffset, nLastToken);
        if (bShowRuleId) {
            sMessage += "  #" + sLineId + " / " + sRuleId;
        }
        //
        return this._createError(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext);
    }

    _createError (nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext) {
        let oErr = {
            "nStart": nStart,
            "nEnd": nEnd,
            "sLineId": sLineId,
            "sRuleId": sRuleId,
            "sType": sOption || "notype",
            "aColor": _dOptionsColors[sOption],
            "aColor": gc_engine.oOptionsColors[sOption],
            "sMessage": sMessage,
            "aSuggestions": lSugg,
            "URL": sURL
        }
        if (bContext) {
            oErr['sUnderlined'] = this.sText0.slice(nStart, nEnd);
            oErr['sBefore'] = this.sText0.slice(Math.max(0,nStart-80), nStart);
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        else if (sRepl === "_") {
            sNew = "_".repeat(ln);
        }
        else if (sRepl === "@") {
            sNew = "@".repeat(ln);
        }
        else if (sRepl.slice(0,1) === "=") {
            sNew = oEvalFunc[sRepl.slice(1)](sText, m);
            sNew = gc_engine_func[sRepl.slice(1)](sText, m);
            sNew = sNew + " ".repeat(ln-sNew.length);
            if (bUppercase && m[iGroup].slice(0,1).gl_isUpperCase()) {
                sNew = sNew.gl_toCapitalize();
            }
        } else {
            sNew = sRepl.gl_expand(m);
            sNew = sNew + " ".repeat(ln-sNew.length);
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                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    this.lToken[i]["sNewValue"] = "_";
                }
            }
        }
        else {
            if (sWhat.startsWith("=")) {
                sWhat = oEvalFunc[sWhat.slice(1)](this.lToken, nTokenOffset, nLastToken);
                sWhat = gc_engine_func[sWhat.slice(1)](this.lToken, nTokenOffset, nLastToken);
            } else {
                sWhat = this._expand(sWhat, nTokenOffset, nLastToken);
            }
            let bUppercase = bCaseSvty && this.lToken[nTokenRewriteStart]["sValue"].slice(0,1).gl_isUpperCase();
            if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
                // one token
                if (bUppercase) {
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            console.log("  TEXT REWRITED: " + this.sSentence);
        }
        this.lToken.length = 0;
        this.lToken = lNewToken;
    }
};


//////// Common functions

function option (sOpt) {
    // return true if option sOpt is active
    return _dOptions.get(sOpt);
}

var re = {
    search: function (sRegex, sText) {
        if (sRegex.startsWith("(?i)")) {
            return sText.search(new RegExp(sRegex.slice(4), "i")) !== -1;
        } else {
            return sText.search(sRegex) !== -1;
        }
    },

    createRegExp: function (sRegex) {
        if (sRegex.startsWith("(?i)")) {
            return new RegExp(sRegex.slice(4), "i");
        } else {
            return new RegExp(sRegex);
        }
    }
}


//////// functions to get text outside pattern scope

// warning: check compile_rules.py to understand how it works

function nextword (s, iStart, n) {
    // get the nth word of the input string or empty string
    let z = new RegExp("^(?: +[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+){" + (n-1).toString() + "} +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+)", "ig");
    let m = z.exec(s.slice(iStart));
    if (!m) {
        return null;
    }
    return [iStart + z.lastIndex - m[1].length, m[1]];
}

function prevword (s, iEnd, n) {
    // get the (-)nth word of the input string or empty string
    let z = new RegExp("([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+) +(?:[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+ +){" + (n-1).toString() + "}$", "i");
    let m = z.exec(s.slice(0, iEnd));
    if (!m) {
        return null;
    }
    return [m.index, m[1]];
}

function nextword1 (s, iStart) {
    // get next word (optimization)
    let _zNextWord = new RegExp ("^ +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_-]*)", "ig");
    let m = _zNextWord.exec(s.slice(iStart));
    if (!m) {
        return null;
    }
    return [iStart + _zNextWord.lastIndex - m[1].length, m[1]];
}

const _zPrevWord = new RegExp ("([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_-]*) +$", "i");

function prevword1 (s, iEnd) {
    // get previous word (optimization)
    let m = _zPrevWord.exec(s.slice(0, iEnd));
    if (!m) {
        return null;
    }
    return [m.index, m[1]];
}

function look (s, sPattern, sNegPattern=null) {
    // seek sPattern in s (before/after/fulltext), if antipattern sNegPattern not in s
    try {
        if (sNegPattern && re.search(sNegPattern, s)) {
            return false;
        }
        return re.search(sPattern, s);
    }
    catch (e) {
        console.error(e);
    }
    return false;
}


//////// Analyse groups for regex rules

function displayInfo (dTokenPos, aWord) {
    // for debugging: info of word
    if (!aWord) {
        console.log("> nothing to find");
        return true;
    }
    let lMorph = _oSpellChecker.getMorph(aWord[1]);
    if (lMorph.length === 0) {
        console.log("> not in dictionary");
        return true;
    }
    if (dTokenPos.has(aWord[0])) {
        console.log("DA: " + dTokenPos.get(aWord[0]));
    }
    console.log("FSA: " + lMorph);
    return true;
}

function morph (dTokenPos, aWord, sPattern, sNegPattern, bNoWord=false) {
    // analyse a tuple (position, word), returns true if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation on)
    if (!aWord) {
        return bNoWord;
    }
    let lMorph = (dTokenPos.has(aWord[0])  &&  dTokenPos.get(aWord[0]))["lMorph"] ? dTokenPos.get(aWord[0])["lMorph"] : _oSpellChecker.getMorph(aWord[1]);
    if (lMorph.length === 0) {
        return false;
    }
    if (sNegPattern) {
        // check negative condition
        if (sNegPattern === "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}

function analyse (sWord, sPattern, sNegPattern) {
    // analyse a word, returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation off)
    let lMorph = _oSpellChecker.getMorph(sWord);
    if (lMorph.length === 0) {
        return false;
    }
    if (sNegPattern) {
        // check negative condition
        if (sNegPattern === "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}


//// Analyse tokens for graph rules

function g_value (oToken, sValues, nLeft=null, nRight=null) {
    // test if <oToken['sValue']> is in sValues (each value should be separated with |)
    let sValue = (nLeft === null) ? "|"+oToken["sValue"]+"|" : "|"+oToken["sValue"].slice(nLeft, nRight)+"|";
    if (sValues.includes(sValue)) {
        return true;
    }
    if (oToken["sValue"].slice(0,2).gl_isTitle()) { // we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
        if (sValues.includes(sValue.toLowerCase())) {
            return true;
        }
    }
    else if (oToken["sValue"].gl_isUpperCase()) {
        //if sValue.lower() in sValues:
        //    return true;
        sValue = "|"+sValue.slice(1).gl_toCapitalize();
        if (sValues.includes(sValue)) {
            return true;
        }
        sValue = sValue.toLowerCase();
        if (sValues.includes(sValue)) {
            return true;
        }
    }
    return false;
}

function g_morph (oToken, sPattern, sNegPattern="", nLeft=null, nRight=null, bMemorizeMorph=true) {
    // analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies
    let lMorph;
    if (oToken.hasOwnProperty("lMorph")) {
        lMorph = oToken["lMorph"];
    }
    else {
        if (nLeft !== null) {
            let sValue = (nRight !== null) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
            lMorph = _oSpellChecker.getMorph(sValue);
            if (bMemorizeMorph) {
                oToken["lMorph"] = lMorph;
            }
        } else {
            lMorph = _oSpellChecker.getMorph(oToken["sValue"]);
        }
    }
    if (lMorph.length == 0) {
        return false;
    }
    // check negative condition
    if (sNegPattern) {
        if (sNegPattern == "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}

function g_analyse (oToken, sPattern, sNegPattern="", nLeft=null, nRight=null, bMemorizeMorph=true) {
    // analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies
    let lMorph;
    if (nLeft !== null) {
        let sValue = (nRight !== null) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
        lMorph = _oSpellChecker.getMorph(sValue);
        if (bMemorizeMorph) {
            oToken["lMorph"] = lMorph;
        }
    } else {
        lMorph = _oSpellChecker.getMorph(oToken["sValue"]);
    }
    if (lMorph.length == 0) {
        return false;
    }
    // check negative condition
    if (sNegPattern) {
        if (sNegPattern == "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}

function g_merged_analyse (oToken1, oToken2, cMerger, sPattern, sNegPattern="", bSetMorph=true) {
    // merge two token values, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)
    let lMorph = _oSpellChecker.getMorph(oToken1["sValue"] + cMerger + oToken2["sValue"]);
    if (lMorph.length == 0) {
        return false;
    }
    // check negative condition
    if (sNegPattern) {
        if (sNegPattern == "*") {
            // all morph must match sPattern
            let bResult = lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
            if (bResult && bSetMorph) {
                oToken1["lMorph"] = lMorph;
            }
            return bResult;
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    let bResult = lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
    if (bResult && bSetMorph) {
        oToken1["lMorph"] = lMorph;
    }
    return bResult;
}

function g_tag_before (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] > dTags.get(sTag)[0]) {
        return true;
    }
    return false;
}

function g_tag_after (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] < dTags.get(sTag)[1]) {
        return true;
    }
    return false;
}

function g_tag (oToken, sTag) {
    return oToken.hasOwnProperty("aTags") && oToken["aTags"].has(sTag);
}

function g_space_between_tokens (oToken1, oToken2, nMin, nMax=null) {
    let nSpace = oToken2["nStart"] - oToken1["nEnd"]
    if (nSpace < nMin) {
        return false;
    }
    if (nMax !== null && nSpace > nMax) {
        return false;
    }
    return true;
}

function g_token (lToken, i) {
    if (i < 0) {
        return lToken[0];
    }
    if (i >= lToken.length) {
        return lToken[-1];
    }
    return lToken[i];
}


//////// Disambiguator

function select (dTokenPos, nPos, sWord, sPattern, lDefault=null) {
    if (!sWord) {
        return true;
    }
    if (!dTokenPos.has(nPos)) {
        console.log("Error. There should be a token at this position: ", nPos);
        return true;
    }
    let lMorph = _oSpellChecker.getMorph(sWord);
    if (lMorph.length === 0  ||  lMorph.length === 1) {
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            dTokenPos.get(nPos)["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        dTokenPos.get(nPos)["lMorph"] = lDefault;
    }
    return true;
}

function exclude (dTokenPos, nPos, sWord, sPattern, lDefault=null) {
    if (!sWord) {
        return true;
    }
    if (!dTokenPos.has(nPos)) {
        console.log("Error. There should be a token at this position: ", nPos);
        return true;
    }
    let lMorph = _oSpellChecker.getMorph(sWord);
    if (lMorph.length === 0  ||  lMorph.length === 1) {
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            dTokenPos.get(nPos)["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        dTokenPos.get(nPos)["lMorph"] = lDefault;
    }
    return true;
}

function define (dTokenPos, nPos, lMorph) {
    dTokenPos.get(nPos)["lMorph"] = lMorph;
    return true;
}


//// Disambiguation for graph rules

function g_select (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_exclude (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_add_morph (oToken, lNewMorph) {
    "Disambiguation: add a morphology to a token"
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    lMorph.push(...lNewMorph);
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define (oToken, lMorph) {
    // set morphologies of <oToken>, always return true
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define_from (oToken, nLeft=null, nRight=null) {
    let sValue = oToken["sValue"];
    if (nLeft !== null) {
        sValue = (nRight !== null) ? sValue.slice(nLeft, nRight) : sValue.slice(nLeft);
    }
    oToken["lMorph"] = _oSpellChecker.getMorph(sValue);
    return true;
}

function g_change_meta (oToken, sType) {
    // Disambiguation: change type of token
    oToken["sType"] = sType;
    return true;
}



//////// GRAMMAR CHECKER PLUGINS

${pluginsJS}


// generated code, do not edit
const oEvalFunc = {
    // callables for regex rules
${callablesJS}

    // callables for graph rules
${graph_callablesJS}
}


if (typeof(exports) !== 'undefined') {
    exports.lang = gc_engine.lang;
    exports.locales = gc_engine.locales;
    exports.pkg = gc_engine.pkg;
    exports.name = gc_engine.name;
    exports.version = gc_engine.version;
    exports.author = gc_engine.author;
    // objects
    exports.oSpellChecker = gc_engine.oSpellChecker;
    exports.oTokenizer = gc_engine.oTokenizer;
    exports.aIgnoredRules = gc_engine.aIgnoredRules;
    exports.oOptionsColors = gc_engine.oOptionsColors;
    // init
    exports.load = gc_engine.load;
    exports.parse = gc_engine.parse;
    exports.getSpellChecker = gc_engine.getSpellChecker;
    // rules
    exports.ignoreRule = gc_engine.ignoreRule;
    exports.resetIgnoreRules = gc_engine.resetIgnoreRules;
    exports.reactivateRule = gc_engine.reactivateRule;
    exports.listRules = gc_engine.listRules;
    exports.getRules = gc_engine.getRules;
    // options
    exports.setOption = gc_engine.setOption;
    exports.setOptions = gc_engine.setOptions;
    exports.getOptions = gc_engine.getOptions;
    exports.getDefaultOptions = gc_engine.getDefaultOptions;
    exports.resetOptions = gc_engine.resetOptions;
    // other
    exports.TextParser = TextParser;
}

Added gc_core/js/lang_core/gc_engine_func.js version [0448168ecb].






















































































































































































































































































































































































































































































































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// JavaScript
// Grammar checker engine functions

${string}
${regex}
${map}


if (typeof(process) !== 'undefined') {
    var gc_options = require("./gc_options.js");
}
else if (typeof(require) !== 'undefined') {
    var gc_options = require("resource://grammalecte/${lang}/gc_options.js");
}


let _sAppContext = "JavaScript";        // what software is running
let _oSpellChecker = null;


//////// Common functions

function option (sOpt) {
    // return true if option sOpt is active
    return gc_options.dOptions.gl_get(sOpt, false);
}

function echo (x) {
    console.log(x);
    return true;
}

var re = {
    search: function (sRegex, sText) {
        if (sRegex.startsWith("(?i)")) {
            return sText.search(new RegExp(sRegex.slice(4), "i")) !== -1;
        } else {
            return sText.search(sRegex) !== -1;
        }
    },

    createRegExp: function (sRegex) {
        if (sRegex.startsWith("(?i)")) {
            return new RegExp(sRegex.slice(4), "i");
        } else {
            return new RegExp(sRegex);
        }
    }
}


//////// functions to get text outside pattern scope

// warning: check compile_rules.py to understand how it works

function nextword (s, iStart, n) {
    // get the nth word of the input string or empty string
    let z = new RegExp("^(?: +[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+){" + (n-1).toString() + "} +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+)", "ig");
    let m = z.exec(s.slice(iStart));
    if (!m) {
        return null;
    }
    return [iStart + z.lastIndex - m[1].length, m[1]];
}

function prevword (s, iEnd, n) {
    // get the (-)nth word of the input string or empty string
    let z = new RegExp("([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+) +(?:[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ%_-]+ +){" + (n-1).toString() + "}$", "i");
    let m = z.exec(s.slice(0, iEnd));
    if (!m) {
        return null;
    }
    return [m.index, m[1]];
}

function nextword1 (s, iStart) {
    // get next word (optimization)
    let _zNextWord = new RegExp ("^ +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_-]*)", "ig");
    let m = _zNextWord.exec(s.slice(iStart));
    if (!m) {
        return null;
    }
    return [iStart + _zNextWord.lastIndex - m[1].length, m[1]];
}

const _zPrevWord = new RegExp ("([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-stᴀ-ᶿ_-]*) +$", "i");

function prevword1 (s, iEnd) {
    // get previous word (optimization)
    let m = _zPrevWord.exec(s.slice(0, iEnd));
    if (!m) {
        return null;
    }
    return [m.index, m[1]];
}

function look (s, sPattern, sNegPattern=null) {
    // seek sPattern in s (before/after/fulltext), if antipattern sNegPattern not in s
    try {
        if (sNegPattern && re.search(sNegPattern, s)) {
            return false;
        }
        return re.search(sPattern, s);
    }
    catch (e) {
        console.error(e);
    }
    return false;
}


//////// Analyse groups for regex rules

function displayInfo (dTokenPos, aWord) {
    // for debugging: info of word
    if (!aWord) {
        console.log("> nothing to find");
        return true;
    }
    let lMorph = _oSpellChecker.getMorph(aWord[1]);
    if (lMorph.length === 0) {
        console.log("> not in dictionary");
        return true;
    }
    if (dTokenPos.has(aWord[0])) {
        console.log("DA: " + dTokenPos.get(aWord[0]));
    }
    console.log("FSA: " + lMorph);
    return true;
}

function morph (dTokenPos, aWord, sPattern, sNegPattern, bNoWord=false) {
    // analyse a tuple (position, word), returns true if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation on)
    if (!aWord) {
        return bNoWord;
    }
    let lMorph = (dTokenPos.has(aWord[0])  &&  dTokenPos.get(aWord[0]))["lMorph"] ? dTokenPos.get(aWord[0])["lMorph"] : _oSpellChecker.getMorph(aWord[1]);
    if (lMorph.length === 0) {
        return false;
    }
    if (sNegPattern) {
        // check negative condition
        if (sNegPattern === "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}

function analyse (sWord, sPattern, sNegPattern) {
    // analyse a word, returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation off)
    let lMorph = _oSpellChecker.getMorph(sWord);
    if (lMorph.length === 0) {
        return false;
    }
    if (sNegPattern) {
        // check negative condition
        if (sNegPattern === "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}


//// Analyse tokens for graph rules

function g_value (oToken, sValues, nLeft=null, nRight=null) {
    // test if <oToken['sValue']> is in sValues (each value should be separated with |)
    let sValue = (nLeft === null) ? "|"+oToken["sValue"]+"|" : "|"+oToken["sValue"].slice(nLeft, nRight)+"|";
    if (sValues.includes(sValue)) {
        return true;
    }
    if (oToken["sValue"].slice(0,2).gl_isTitle()) { // we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
        if (sValues.includes(sValue.toLowerCase())) {
            return true;
        }
    }
    else if (oToken["sValue"].gl_isUpperCase()) {
        //if sValue.lower() in sValues:
        //    return true;
        sValue = "|"+sValue.slice(1).gl_toCapitalize();
        if (sValues.includes(sValue)) {
            return true;
        }
        sValue = sValue.toLowerCase();
        if (sValues.includes(sValue)) {
            return true;
        }
    }
    return false;
}

function g_morph (oToken, sPattern, sNegPattern="", nLeft=null, nRight=null, bMemorizeMorph=true) {
    // analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies
    let lMorph;
    if (oToken.hasOwnProperty("lMorph")) {
        lMorph = oToken["lMorph"];
    }
    else {
        if (nLeft !== null) {
            let sValue = (nRight !== null) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
            lMorph = _oSpellChecker.getMorph(sValue);
            if (bMemorizeMorph) {
                oToken["lMorph"] = lMorph;
            }
        } else {
            lMorph = _oSpellChecker.getMorph(oToken["sValue"]);
        }
    }
    if (lMorph.length == 0) {
        return false;
    }
    // check negative condition
    if (sNegPattern) {
        if (sNegPattern == "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}

function g_analyse (oToken, sPattern, sNegPattern="", nLeft=null, nRight=null, bMemorizeMorph=true) {
    // analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies
    let lMorph;
    if (nLeft !== null) {
        let sValue = (nRight !== null) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
        lMorph = _oSpellChecker.getMorph(sValue);
        if (bMemorizeMorph) {
            oToken["lMorph"] = lMorph;
        }
    } else {
        lMorph = _oSpellChecker.getMorph(oToken["sValue"]);
    }
    if (lMorph.length == 0) {
        return false;
    }
    // check negative condition
    if (sNegPattern) {
        if (sNegPattern == "*") {
            // all morph must match sPattern
            return lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    return lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
}

function g_merged_analyse (oToken1, oToken2, cMerger, sPattern, sNegPattern="", bSetMorph=true) {
    // merge two token values, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)
    let lMorph = _oSpellChecker.getMorph(oToken1["sValue"] + cMerger + oToken2["sValue"]);
    if (lMorph.length == 0) {
        return false;
    }
    // check negative condition
    if (sNegPattern) {
        if (sNegPattern == "*") {
            // all morph must match sPattern
            let bResult = lMorph.every(sMorph  =>  (sMorph.search(sPattern) !== -1));
            if (bResult && bSetMorph) {
                oToken1["lMorph"] = lMorph;
            }
            return bResult;
        }
        else {
            if (lMorph.some(sMorph  =>  (sMorph.search(sNegPattern) !== -1))) {
                return false;
            }
        }
    }
    // search sPattern
    let bResult = lMorph.some(sMorph  =>  (sMorph.search(sPattern) !== -1));
    if (bResult && bSetMorph) {
        oToken1["lMorph"] = lMorph;
    }
    return bResult;
}

function g_tag_before (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] > dTags.get(sTag)[0]) {
        return true;
    }
    return false;
}

function g_tag_after (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] < dTags.get(sTag)[1]) {
        return true;
    }
    return false;
}

function g_tag (oToken, sTag) {
    return oToken.hasOwnProperty("aTags") && oToken["aTags"].has(sTag);
}

function g_space_between_tokens (oToken1, oToken2, nMin, nMax=null) {
    let nSpace = oToken2["nStart"] - oToken1["nEnd"]
    if (nSpace < nMin) {
        return false;
    }
    if (nMax !== null && nSpace > nMax) {
        return false;
    }
    return true;
}

function g_token (lToken, i) {
    if (i < 0) {
        return lToken[0];
    }
    if (i >= lToken.length) {
        return lToken[-1];
    }
    return lToken[i];
}


//////// Disambiguator

function select (dTokenPos, nPos, sWord, sPattern, lDefault=null) {
    if (!sWord) {
        return true;
    }
    if (!dTokenPos.has(nPos)) {
        console.log("Error. There should be a token at this position: ", nPos);
        return true;
    }
    let lMorph = _oSpellChecker.getMorph(sWord);
    if (lMorph.length === 0  ||  lMorph.length === 1) {
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            dTokenPos.get(nPos)["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        dTokenPos.get(nPos)["lMorph"] = lDefault;
    }
    return true;
}

function exclude (dTokenPos, nPos, sWord, sPattern, lDefault=null) {
    if (!sWord) {
        return true;
    }
    if (!dTokenPos.has(nPos)) {
        console.log("Error. There should be a token at this position: ", nPos);
        return true;
    }
    let lMorph = _oSpellChecker.getMorph(sWord);
    if (lMorph.length === 0  ||  lMorph.length === 1) {
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            dTokenPos.get(nPos)["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        dTokenPos.get(nPos)["lMorph"] = lDefault;
    }
    return true;
}

function define (dTokenPos, nPos, lMorph) {
    dTokenPos.get(nPos)["lMorph"] = lMorph;
    return true;
}


//// Disambiguation for graph rules

function g_select (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_exclude (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_add_morph (oToken, lNewMorph) {
    "Disambiguation: add a morphology to a token"
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    lMorph.push(...lNewMorph);
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define (oToken, lMorph) {
    // set morphologies of <oToken>, always return true
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define_from (oToken, nLeft=null, nRight=null) {
    let sValue = oToken["sValue"];
    if (nLeft !== null) {
        sValue = (nRight !== null) ? sValue.slice(nLeft, nRight) : sValue.slice(nLeft);
    }
    oToken["lMorph"] = _oSpellChecker.getMorph(sValue);
    return true;
}

function g_change_meta (oToken, sType) {
    // Disambiguation: change type of token
    oToken["sType"] = sType;
    return true;
}



//////// GRAMMAR CHECKER PLUGINS

${pluginsJS}


// generated code, do not edit
var gc_engine_func = {

    load: function (sContext, oSpellChecker) {
        _sAppContext = sContext
        _oSpellChecker = oSpellChecker
    },

    // callables for regex rules
${callablesJS}

    // callables for graph rules
${graph_callablesJS}
}


if (typeof(exports) !== 'undefined') {
    exports.load = gc_engine_func.load;
}

Modified gc_core/js/lang_core/gc_options.js from [ece26d7264] to [6f3ff68ba6].

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// Options for Grammalecte

/* jshint esversion:6 */
/* jslint esversion:6 */
/* global exports */

${map}


var gc_options = {

    dOptions: new Map(),

    sAppContext: "JavaScript",

    load: function (sContext="JavaScript") {
        this.sAppContext = sContext;
        this.dOptions = this.getDefaultOptions(sContext);
    },

    setOption: function (sOpt, bVal) {
        if (this.dOptions.has(sOpt)) {
            this.dOptions.set(sOpt, bVal);
        }
    },

    setOptions: function (dOpt) {
        this.dOptions.gl_updateOnlyExistingKeys(dOpt);
    },

    getOptions: function (sContext="JavaScript") {
        if (this.dOpt.hasOwnProperty(sContext)) {
            return this.dOpt[sContext];
    getOptions: function () {
        return this.dOptions.gl_shallowCopy();
    },

    resetOptions: function () {
        this.dOptions = this.getDefaultOptions(this._sAppContext);
    },

    getDefaultOptions: function (sContext="") {
        if (!sContext) {
            sContext = this.sAppContext;
        }
        if (this.oDefaultOpt.hasOwnProperty(sContext)) {
            return this.oDefaultOpt[sContext].gl_shallowCopy();
        }
        return this.oDefaultOpt["JavaScript"].gl_shallowCopy();
    },

    getOptionLabels: function (sLang="${sLang}") {
        if (this.oOptLabel.hasOwnProperty(sLang)) {
            return this.oOptLabel[sLang];
        }
        return this.dOpt["JavaScript"];
        return this.oOptLabel["{$sLang}"];
    },

    getOptionsColors: function (sTheme="Default", sColorType="aRGB") {
        let dOptColor = (this.dOptColor.hasOwnProperty(sTheme)) ? this.dOptColor[sTheme] : this.dOptColor["Default"];
        let dColorType = (this.dColorType.hasOwnProperty(sColorType)) ? this.dColorType[sColorType] : this.dColorType["aRGB"];
        let dColor = {};
        let oOptColor = (this.oOptColor.hasOwnProperty(sTheme)) ? this.oOptColor[sTheme] : this.oOptColor["Default"];
        let oColorType = (this.oColorType.hasOwnProperty(sColorType)) ? this.oColorType[sColorType] : this.oColorType["aRGB"];
        let oColor = {};
        try {
            for (let [sOpt, sColor] of Object.entries(dOptColor)) {
                dColor[sOpt] = dColorType[sColor];
            for (let [sOpt, sColor] of Object.entries(oOptColor)) {
                oColor[sOpt] = oColorType[sColor];
            }
            return dColor;
            return oColor;
        }
        catch (e) {
            console.error(e);
            return {};
        }
    },

    lStructOpt: ${lStructOpt},

    dOpt: {
    oDefaultOpt: {
        "JavaScript": new Map (${dOptJavaScript}),
        "Firefox": new Map (${dOptFirefox}),
        "Thunderbird": new Map (${dOptThunderbird}),
    },

    dColorType: ${dColorType},
    oColorType: ${dColorType},

    dOptColor: ${dOptColor},
    oOptColor: ${dOptColor},

    dOptLabel: ${dOptLabel}
    oOptLabel: ${dOptLabel}
};


if (typeof(exports) !== 'undefined') {
    exports.dOptions = gc_options.dOptions;
    exports.sAppContext = gc_options.sAppContext;
    exports.load = gc_options.load;
    exports.setOption = gc_options.setOption;
    exports.setOptions = gc_options.setOptions;
    exports.resetOptions = gc_options.resetOptions;
    exports.getDefaultOptions = gc_options.getDefaultOptions;
    exports.getOptions = gc_options.getOptions;
    exports.getOptionsColors = gc_options.getOptionsColors;
    exports.lStructOpt = gc_options.lStructOpt;
    exports.dOpt = gc_options.dOpt;
    exports.oDefaultOpt = gc_options.oDefaultOpt;
    exports.dColorType = gc_options.dColorType;
    exports.dOptColor = gc_options.dOptColor;
    exports.dOptLabel = gc_options.dOptLabel;
    exports.oOptColor = gc_options.oOptColor;
    exports.oOptLabel = gc_options.oOptLabel;
}

Modified gc_core/py/__init__.py from [49f46a05ff] to [3c70db889b].

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"""
Grammar checker
"""

from .grammar_checker import *
from .${lang}.gc_engine import *

Deleted gc_core/py/grammar_checker.py version [50b054f72f].

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"""
Grammalecte, grammar checker
"""

import importlib
import json

from . import text


class GrammarChecker:
    "GrammarChecker: Wrapper for the grammar checker engine"

    def __init__ (self, sLangCode, sContext="Python"):
        self.sLangCode = sLangCode
        # Grammar checker engine
        self.gce = importlib.import_module("."+sLangCode, "grammalecte")
        self.gce.load(sContext)
        # Spell checker
        self.oSpellChecker = self.gce.getSpellChecker()
        # Lexicographer
        self.oLexicographer = None
        # Text formatter
        self.oTextFormatter = None

    def getGCEngine (self):
        "return the grammar checker object"
        return self.gce

    def getSpellChecker (self):
        "return the spell checker object"
        return self.oSpellChecker

    def getTextFormatter (self):
        "load and return the text formatter"
        if self.oTextFormatter is None:
            tf = importlib.import_module("."+self.sLangCode+".textformatter", "grammalecte")
            self.oTextFormatter = tf.TextFormatter()
        return self.oTextFormatter

    def getLexicographer (self):
        "load and return the lexicographer"
        if self.oLexicographer is None:
            lxg = importlib.import_module("."+self.sLangCode+".lexicographe", "grammalecte")
            self.oLexicographer = lxg.Lexicographe(self.oSpellChecker)
        return self.oLexicographer

    def displayGCOptions (self):
        "display the grammar checker options"
        self.gce.displayOptions()

    def getParagraphErrors (self, sText, dOptions=None, bContext=False, bSpellSugg=False, bDebug=False):
        "returns a tuple: (grammar errors, spelling errors)"
        aGrammErrs = self.gce.parse(sText, "FR", bDebug=bDebug, dOptions=dOptions, bContext=bContext)
        aSpellErrs = self.oSpellChecker.parseParagraph(sText, bSpellSugg)
        return aGrammErrs, aSpellErrs

    def getParagraphWithErrors (self, sText, dOptions=None, bEmptyIfNoErrors=False, bSpellSugg=False, nWidth=100, bDebug=False):
        "parse text and return a readable text with underline errors"
        aGrammErrs, aSpellErrs = self.getParagraphErrors(sText, dOptions, False, bSpellSugg, bDebug)
        if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
            return ("", [])
        return text.generateParagraph(sText, aGrammErrs, aSpellErrs, nWidth)

    def getTextWithErrors (self, sText, bEmptyIfNoErrors=False, bSpellSugg=False, nWidth=100, bDebug=False):
        "[todo]"

    def getParagraphErrorsAsJSON (self, iIndex, sText, dOptions=None, bContext=False, bEmptyIfNoErrors=False, bSpellSugg=False, bReturnText=False, lLineSet=None, bDebug=False):
        "parse text and return errors as a JSON string"
        aGrammErrs, aSpellErrs = self.getParagraphErrors(sText, dOptions, bContext, bSpellSugg, bDebug)
        aGrammErrs = list(aGrammErrs)
        if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
            return ""
        if lLineSet:
            aGrammErrs, aSpellErrs = text.convertToXY(aGrammErrs, aSpellErrs, lLineSet)
            return json.dumps({ "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
        if bReturnText:
            return json.dumps({ "iParagraph": iIndex, "sText": sText, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
        return json.dumps({ "iParagraph": iIndex, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)

    def getTextErrorsAsJSON (self, sText, bContext=False, bEmptyIfNoErrors=False, bSpellSugg=False, bReturnText=False, bDebug=False):
        "[todo]"

Modified gc_core/py/lang_core/gc_engine.py from [c796a47a03] to [db20a56eec].

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"""
Grammalecte
Grammar checker engine
"""

import re
import traceback
import json
import importlib
#import unicodedata
from itertools import chain

from ..graphspell.spellchecker import SpellChecker
from ..graphspell.echo import echo

from .. import text

from . import gc_engine_func as gce_func
from . import gc_options


try:
    # LibreOffice / OpenOffice
    from com.sun.star.linguistic2 import SingleProofreadingError
    from com.sun.star.text.TextMarkupType import PROOFREADING
    from com.sun.star.beans import PropertyValue
    #import lightproof_handler_${implname} as opt
    _bWriterError = True
except ImportError:
    _bWriterError = False


__all__ = [ "lang", "locales", "pkg", "name", "version", "author", \
            "load", "parse", "getSpellChecker", \
#__all__ = [ "lang", "locales", "pkg", "name", "version", "author", \
#            "load", "parse", "getSpellChecker", "getTextFormatter", "getLexicographer" \
            "setOption", "setOptions", "getOptions", "getDefaultOptions", "getOptionsLabels", "resetOptions", "displayOptions", \
            "ignoreRule", "resetIgnoreRules", "reactivateRule", "listRules", "displayRules", "setWriterUnderliningStyle" ]
#            "ignoreRule", "resetIgnoreRules", "reactivateRule", "listRules", "displayRules", "setWriterUnderliningStyle" ]

__version__ = "${version}"


lang = "${lang}"
locales = ${loc}
pkg = "${implname}"
name = "${name}"
version = "${version}"
author = "${author}"

# Modules
_rules = None                               # module gc_rules
_rules_graph = None                         # module gc_rules_graph

# Data
# Tools
_sAppContext = ""                           # what software is running
_dOptions = None
_dOptionsColors = None
_oSpellChecker = None
_oTokenizer = None

# Data
_aIgnoredRules = set()

# Writer underlining style
_dOptionsColors = None
_bMulticolor = True
_nUnderliningStyle = 0


#### Initialization

def load (sContext="Python", sColorType="aRGB"):
    "initialization of the grammar checker"
    global _oSpellChecker
    global _sAppContext
    global _dOptions
    global _dOptionsColors
    global _oTokenizer
    try:
        _oSpellChecker = SpellChecker("${lang}", "${dic_main_filename_py}", "${dic_community_filename_py}", "${dic_personal_filename_py}")
        _sAppContext = sContext
        _oSpellChecker.activateStorage()
        _dOptions = gc_options.getOptions(sContext).copy()   # duplication necessary, to be able to reset to default
        _dOptionsColors = gc_options.getOptionsColors(sContext, sColorType)
        _oTokenizer = _oSpellChecker.getTokenizer()
        _oSpellChecker.activateStorage()
        gce_func.load(sContext, _oSpellChecker)
        gc_options.load(sContext)
        _dOptionsColors = gc_options.getOptionsColors(sContext, sColorType)
    except:
        traceback.print_exc()


#### Tools

def getSpellChecker ():
    "return the spellchecker object"
    return _oSpellChecker


#### Rules
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def reactivateRule (sRuleId):
    "(re)activate rule <sRuleId>"
    _aIgnoredRules.discard(sRuleId)


def listRules (sFilter=None):
    "generator: returns typle (sOption, sLineId, sRuleId)"
    "generator: returns tuple (sRuleType, sOption, sLineId, sRuleId)"
    if sFilter:
        try:
            zFilter = re.compile(sFilter)
        except re.error:
            echo("# Error. List rules: wrong regex.")
            sFilter = None
    # regex rules
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def displayRules (sFilter=None):
    "display the name of rules, with the filter <sFilter>"
    echo("List of rules. Filter: << " + str(sFilter) + " >>")
    for sOption, sLineId, sRuleId, sType in listRules(sFilter):
        echo("{:<8} {:<10} {:<10} {}".format(sOption, sLineId, sRuleId, sType))


#### Options

def setOption (sOpt, bVal):
    "set option <sOpt> with <bVal> if it exists"
    if sOpt in _dOptions:
        _dOptions[sOpt] = bVal


def setOptions (dOpt):
    "update the dictionary of options with <dOpt>"
    for sKey, bVal in dOpt.items():
        if sKey in _dOptions:
            _dOptions[sKey] = bVal


def getOptions ():
    "return the dictionary of current options"
    return _dOptions


def getDefaultOptions ():
    "return the dictionary of default options"
    return gc_options.getOptions(_sAppContext).copy()


def getOptionsLabels (sLang):
    "return options labels"
    return gc_options.getUI(sLang)


def displayOptions (sLang="${lang}"):
    "display the list of grammar checking options"
    echo("Options:")
    echo("\n".join( [ k+":\t"+str(v)+"\t"+gc_options.getUI(sLang).get(k, ("?", ""))[0]  for k, v  in sorted(_dOptions.items()) ] ))
    echo("")


def resetOptions ():
    "set options to default values"
    global _dOptions
    _dOptions = getDefaultOptions()


def setWriterUnderliningStyle (sStyle="BOLDWAVE", bMulticolor=True):
    "set underlining style for Writer (WAVE, BOLDWAVE, BOLD)"
    global _nUnderliningStyle
    global _bMulticolor
    # https://api.libreoffice.org/docs/idl/ref/FontUnderline_8idl.html
    # WAVE: 10, BOLD: 12, BOLDWAVE: 18 DASH: 5
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        _nUnderliningStyle = 5
    else:
        _nUnderliningStyle = 0
    _bMulticolor = bMulticolor


#### Parsing

def getParagraphErrors (sText, dOptions=None, bContext=False, bSpellSugg=False, bDebug=False):
    "returns a tuple: (grammar errors, spelling errors)"
    aGrammErrs = parse(sText, "FR", bDebug=bDebug, dOptions=dOptions, bContext=bContext)
    aSpellErrs = _oSpellChecker.parseParagraph(sText, bSpellSugg)
    return aGrammErrs, aSpellErrs


def getParagraphWithErrors (sText, dOptions=None, bEmptyIfNoErrors=False, bSpellSugg=False, nWidth=100, bDebug=False):
    "parse text and return a readable text with underline errors"
    aGrammErrs, aSpellErrs = getParagraphErrors(sText, dOptions, False, bSpellSugg, bDebug)
    if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
        return ("", [])
    return text.generateParagraph(sText, aGrammErrs, aSpellErrs, nWidth)


def getParagraphErrorsAsJSON (iIndex, sText, dOptions=None, bContext=False, bEmptyIfNoErrors=False, bSpellSugg=False, bReturnText=False, lLineSet=None, bDebug=False):
    "parse text and return errors as a JSON string"
    aGrammErrs, aSpellErrs = getParagraphErrors(sText, dOptions, bContext, bSpellSugg, bDebug)
    aGrammErrs = list(aGrammErrs)
    if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
        return ""
    if lLineSet:
        aGrammErrs, aSpellErrs = text.convertToXY(aGrammErrs, aSpellErrs, lLineSet)
        return json.dumps({ "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
    if bReturnText:
        return json.dumps({ "iParagraph": iIndex, "sText": sText, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
    return json.dumps({ "iParagraph": iIndex, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)


def parse (sText, sCountry="${country_default}", bDebug=False, dOptions=None, bContext=False, bFullInfo=False):
    "init point to analyse <sText> and returns an iterable of errors or (with option <bFullInfo>) paragraphs errors and sentences with tokens and errors"
    oText = TextParser(sText)
    return oText.parse(sCountry, bDebug, dOptions, bContext, bFullInfo)


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        #for nPos, dToken in self.dTokenPos.items():
        #    s += "{}\t{}\n".format(nPos, dToken)
        return s

    def parse (self, sCountry="${country_default}", bDebug=False, dOptions=None, bContext=False, bFullInfo=False):
        "analyses <sText> and returns an iterable of errors or (with option <bFullInfo>) paragraphs errors and sentences with tokens and errors"
        #sText = unicodedata.normalize("NFC", sText)
        dOpt = dOptions or _dOptions
        bShowRuleId = option('idrule')
        dOpt = dOptions or gc_options.dOptions
        bShowRuleId = gc_options.dOptions.get('idrule', False)
        # parse paragraph
        try:
            self.parseText(self.sText, self.sText0, True, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext)
        except:
            raise
        if bFullInfo:
            lParagraphErrors = list(self.dError.values())
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                for zRegex, bUppercase, sLineId, sRuleId, nPriority, lActions in lRuleGroup:
                    if sRuleId not in _aIgnoredRules:
                        for m in zRegex.finditer(sText):
                            bCondMemo = None
                            for sFuncCond, cActionType, sWhat, *eAct in lActions:
                                # action in lActions: [ condition, action type, replacement/suggestion/action[, iGroup[, message, URL]] ]
                                try:
                                    bCondMemo = not sFuncCond or globals()[sFuncCond](sText, sText0, m, self.dTokenPos, sCountry, bCondMemo)
                                    bCondMemo = not sFuncCond or getattr(gce_func, sFuncCond)(sText, sText0, m, self.dTokenPos, sCountry, bCondMemo)
                                    if bCondMemo:
                                        if bDebug:
                                            echo("RULE: " + sLineId)
                                        if cActionType == "-":
                                            # grammar error
                                            nErrorStart = nOffset + m.start(eAct[0])
                                            if nErrorStart not in self.dError or nPriority > self.dErrorPriority.get(nErrorStart, -1):
                                                self.dError[nErrorStart] = self._createErrorFromRegex(sText, sText0, sWhat, nOffset, m, eAct[0], sLineId, sRuleId, bUppercase, eAct[1], eAct[2], bShowRuleId, sOption, bContext)
                                                self.dErrorPriority[nErrorStart] = nPriority
                                                self.dSentenceError[nErrorStart] = self.dError[nErrorStart]
                                        elif cActionType == "~":
                                            # text processor
                                            sText = self.rewriteText(sText, sWhat, eAct[0], m, bUppercase)
                                            bChange = True
                                            if bDebug:
                                                echo("~ " + sText + "  -- " + m.group(eAct[0]) + "  # " + sLineId)
                                        elif cActionType == "=":
                                            # disambiguation
                                            if not bParagraph:
                                                globals()[sWhat](sText, m, self.dTokenPos)
                                                getattr(gce_func, sWhat)(sText, m, self.dTokenPos)
                                                if bDebug:
                                                    echo("= " + m.group(0) + "  # " + sLineId)
                                        elif cActionType == ">":
                                            # we do nothing, this test is just a condition to apply all following actions
                                            pass
                                        else:
                                            echo("# error: unknown action at " + sLineId)
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        for sLineId, nextNodeKey in dNode.items():
            bCondMemo = None
            for sRuleId in dGraph[nextNodeKey]:
                try:
                    if bDebug:
                        echo("   >TRY: " + sRuleId + " " + sLineId)
                    _, sOption, sFuncCond, cActionType, sWhat, *eAct = _rules_graph.dRule[sRuleId]
                    # Suggestion    [ option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL ]
                    # TextProcessor [ option, condition, "~", replacement/suggestion/action, iTokenStart, iTokenEnd, bCaseSvty ]
                    # Disambiguator [ option, condition, "=", replacement/suggestion/action ]
                    # Tag           [ option, condition, "/", replacement/suggestion/action, iTokenStart, iTokenEnd ]
                    # Immunity      [ option, condition, "!", "",                            iTokenStart, iTokenEnd ]
                    # Test          [ option, condition, ">", "" ]
                    # Suggestion    [ sActionLineId, option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL ]
                    # TextProcessor [ sActionLineId, option, condition, "~", replacement/suggestion/action, iTokenStart, iTokenEnd, bCaseSvty ]
                    # Disambiguator [ sActionLineId, option, condition, "=", replacement/suggestion/action ]
                    # Tag           [ sActionLineId, option, condition, "/", replacement/suggestion/action, iTokenStart, iTokenEnd ]
                    # Immunity      [ sActionLineId, option, condition, "!", "",                            iTokenStart, iTokenEnd ]
                    # Test          [ sActionLineId, option, condition, ">", "" ]
                    if not sOption or dOptions.get(sOption, False):
                        bCondMemo = not sFuncCond or globals()[sFuncCond](self.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, self.dTags, self.sSentence, self.sSentence0)
                        bCondMemo = not sFuncCond or getattr(gce_func, sFuncCond)(self.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, self.dTags, self.sSentence, self.sSentence0)
                        if bCondMemo:
                            if cActionType == "-":
                                # grammar error
                                iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL = eAct
                                nTokenErrorStart = nTokenOffset + iTokenStart  if iTokenStart > 0  else nLastToken + iTokenStart
                                if "bImmune" not in self.lToken[nTokenErrorStart]:
                                    nTokenErrorEnd = nTokenOffset + iTokenEnd  if iTokenEnd > 0  else nLastToken + iTokenEnd
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                                nTokenEnd = nTokenOffset + eAct[1]  if eAct[1] > 0  else nLastToken + eAct[1]
                                self._tagAndPrepareTokenForRewriting(sWhat, nTokenStart, nTokenEnd, nTokenOffset, nLastToken, eAct[2], bDebug)
                                bChange = True
                                if bDebug:
                                    echo("    TEXT_PROCESSOR: [{}:{}]  > {}".format(self.lToken[nTokenStart]["sValue"], self.lToken[nTokenEnd]["sValue"], sWhat))
                            elif cActionType == "=":
                                # disambiguation
                                globals()[sWhat](self.lToken, nTokenOffset, nLastToken)
                                getattr(gce_func, sWhat)(self.lToken, nTokenOffset, nLastToken)
                                if bDebug:
                                    echo("    DISAMBIGUATOR: ({})  [{}:{}]".format(sWhat, self.lToken[nTokenOffset+1]["sValue"], self.lToken[nLastToken]["sValue"]))
                            elif cActionType == ">":
                                # we do nothing, this test is just a condition to apply all following actions
                                if bDebug:
                                    echo("    COND_OK")
                            elif cActionType == "/":
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        return bChange

    def _createErrorFromRegex (self, sText, sText0, sRepl, nOffset, m, iGroup, sLineId, sRuleId, bUppercase, sMsg, sURL, bShowRuleId, sOption, bContext):
        nStart = nOffset + m.start(iGroup)
        nEnd = nOffset + m.end(iGroup)
        # suggestions
        if sRepl[0:1] == "=":
            sSugg = globals()[sRepl[1:]](sText, m)
            sSugg = getattr(gce_func, sRepl[1:])(sText, m)
            lSugg = sSugg.split("|")  if sSugg  else []
        elif sRepl == "_":
            lSugg = []
        else:
            lSugg = m.expand(sRepl).split("|")
        if bUppercase and lSugg and m.group(iGroup)[0:1].isupper():
            lSugg = list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = globals()[sMsg[1:]](sText, m)  if sMsg[0:1] == "="  else  m.expand(sMsg)
        sMessage = getattr(gce_func, sMsg[1:])(sText, m)  if sMsg[0:1] == "="  else  m.expand(sMsg)
        if bShowRuleId:
            sMessage += "  #" + sLineId + " / " + sRuleId
        #
        if _bWriterError:
            return self._createErrorForWriter(nStart, nEnd - nStart, sRuleId, sOption, sMessage, lSugg, sURL)
        return self._createErrorAsDict(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext)

    def _createErrorFromTokens (self, sSugg, nTokenOffset, nLastToken, iFirstToken, nStart, nEnd, sLineId, sRuleId, bCaseSvty, sMsg, sURL, bShowRuleId, sOption, bContext):
        # suggestions
        if sSugg[0:1] == "=":
            sSugg = globals()[sSugg[1:]](self.lToken, nTokenOffset, nLastToken)
            sSugg = getattr(gce_func, sSugg[1:])(self.lToken, nTokenOffset, nLastToken)
            lSugg = sSugg.split("|")  if sSugg  else []
        elif sSugg == "_":
            lSugg = []
        else:
            lSugg = self._expand(sSugg, nTokenOffset, nLastToken).split("|")
        if bCaseSvty and lSugg and self.lToken[iFirstToken]["sValue"][0:1].isupper():
            lSugg = list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = globals()[sMsg[1:]](self.lToken, nTokenOffset, nLastToken)  if sMsg[0:1] == "="  else self._expand(sMsg, nTokenOffset, nLastToken)
        sMessage = getattr(gce_func, sMsg[1:])(self.lToken, nTokenOffset, nLastToken)  if sMsg[0:1] == "="  else self._expand(sMsg, nTokenOffset, nLastToken)
        if bShowRuleId:
            sMessage += "  #" + sLineId + " / " + sRuleId
        #
        if _bWriterError:
            return self._createErrorForWriter(nStart, nEnd - nStart, sRuleId, sOption, sMessage, lSugg, sURL)
        return self._createErrorAsDict(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext)

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        if sRepl == "*":
            sNew = " " * nLen
        elif sRepl == "_":
            sNew = "_" * nLen
        elif sRepl == "@":
            sNew = "@" * nLen
        elif sRepl[0:1] == "=":
            sNew = globals()[sRepl[1:]](sText, m)
            sNew = getattr(gce_func, sRepl[1:])(sText, m)
            sNew = sNew + " " * (nLen-len(sNew))
            if bUppercase and m.group(iGroup)[0:1].isupper():
                sNew = sNew.capitalize()
        else:
            sNew = m.expand(sRepl)
            sNew = sNew + " " * (nLen-len(sNew))
        return sText[0:m.start(iGroup)] + sNew + sText[m.end(iGroup):]
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            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                self.lToken[nTokenRewriteStart]["sNewValue"] = "_"
            else:
                for i in range(nTokenRewriteStart, nTokenRewriteEnd+1):
                    self.lToken[i]["sNewValue"] = "_"
        else:
            if sWhat.startswith("="):
                sWhat = globals()[sWhat[1:]](self.lToken, nTokenOffset, nLastToken)
                sWhat = getattr(gce_func, sWhat[1:])(self.lToken, nTokenOffset, nLastToken)
            else:
                sWhat = self._expand(sWhat, nTokenOffset, nLastToken)
            bUppercase = bCaseSvty and self.lToken[nTokenRewriteStart]["sValue"][0:1].isupper()
            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                # one token
                if bUppercase:
                    sWhat = sWhat[0:1].upper() + sWhat[1:]
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                except KeyError:
                    echo(self)
                    echo(dToken)
        if bDebug:
            echo("  TEXT REWRITED: " + self.sSentence)
        self.lToken.clear()
        self.lToken = lNewToken


#### common functions

def option (sOpt):
    "return True if option <sOpt> is active"
    return _dOptions.get(sOpt, False)


#### Functions to get text outside pattern scope

# warning: check compile_rules.py to understand how it works

_zNextWord = re.compile(r" +(\w[\w-]*)")
_zPrevWord = re.compile(r"(\w[\w-]*) +$")

def nextword (s, iStart, n):
    "get the nth word of the input string or empty string"
    m = re.match("(?: +[\\w%-]+){" + str(n-1) + "} +([\\w%-]+)", s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword (s, iEnd, n):
    "get the (-)nth word of the input string or empty string"
    m = re.search("([\\w%-]+) +(?:[\\w%-]+ +){" + str(n-1) + "}$", s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def nextword1 (s, iStart):
    "get next word (optimization)"
    m = _zNextWord.match(s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword1 (s, iEnd):
    "get previous word (optimization)"
    m = _zPrevWord.search(s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def look (s, sPattern, sNegPattern=None):
    "seek sPattern in s (before/after/fulltext), if sNegPattern not in s"
    if sNegPattern and re.search(sNegPattern, s):
        return False
    if re.search(sPattern, s):
        return True
    return False


def look_chk1 (dTokenPos, s, nOffset, sPattern, sPatternGroup1, sNegPatternGroup1=""):
    "returns True if s has pattern sPattern and m.group(1) has pattern sPatternGroup1"
    m = re.search(sPattern, s)
    if not m:
        return False
    try:
        sWord = m.group(1)
        nPos = m.start(1) + nOffset
    except IndexError:
        return False
    return morph(dTokenPos, (nPos, sWord), sPatternGroup1, sNegPatternGroup1)



#### Analyse groups for regex rules

def displayInfo (dTokenPos, tWord):
    "for debugging: retrieve info of word"
    if not tWord:
        echo("> nothing to find")
        return True
    lMorph = _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        echo("> not in dictionary")
        return True
    echo("TOKENS:", dTokenPos)
    if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]:
        echo("DA: " + str(dTokenPos[tWord[0]]["lMorph"]))
    echo("FSA: " + str(lMorph))
    return True


def morph (dTokenPos, tWord, sPattern, sNegPattern="", bNoWord=False):
    "analyse a tuple (position, word), returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation on)"
    if not tWord:
        return bNoWord
    lMorph = dTokenPos[tWord[0]]["lMorph"]  if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]  else _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def analyse (sWord, sPattern, sNegPattern=""):
    "analyse a word, returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation off)"
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


#### Analyse tokens for graph rules

def g_value (dToken, sValues, nLeft=None, nRight=None):
    "test if <dToken['sValue']> is in sValues (each value should be separated with |)"
    sValue = "|"+dToken["sValue"]+"|"  if nLeft is None  else "|"+dToken["sValue"][slice(nLeft, nRight)]+"|"
    if sValue in sValues:
        return True
    if dToken["sValue"][0:2].istitle(): # we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
        if sValue.lower() in sValues:
            return True
    elif dToken["sValue"].isupper():
        #if sValue.lower() in sValues:
        #    return True
        sValue = "|"+sValue[1:].capitalize()
        if sValue in sValues:
            return True
        sValue = sValue.lower()
        if sValue in sValues:
            return True
    return False


def g_morph (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies"
    if "lMorph" in dToken:
        lMorph = dToken["lMorph"]
    else:
        if nLeft is not None:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
            if bMemorizeMorph:
                dToken["lMorph"] = lMorph
        else:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def g_analyse (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)"
    if nLeft is not None:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
        if bMemorizeMorph:
            dToken["lMorph"] = lMorph
    else:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def g_merged_analyse (dToken1, dToken2, cMerger, sPattern, sNegPattern="", bSetMorph=True):
    "merge two token values, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)"
    lMorph = _oSpellChecker.getMorph(dToken1["sValue"] + cMerger + dToken2["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            bResult = all(zPattern.search(sMorph)  for sMorph in lMorph)
            if bResult and bSetMorph:
                dToken1["lMorph"] = lMorph
            return bResult
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    bResult = any(zPattern.search(sMorph)  for sMorph in lMorph)
    if bResult and bSetMorph:
        dToken1["lMorph"] = lMorph
    return bResult


def g_tag_before (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens before <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] > dTags[sTag][0]:
        return True
    return False


def g_tag_after (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens after <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] < dTags[sTag][1]:
        return True
    return False


def g_tag (dToken, sTag):
    "returns True if <sTag> is present on token <dToken>"
    return "aTags" in dToken and sTag in dToken["aTags"]


def g_meta (dToken, sType):
    "returns True if <sType> is equal to the token type"
    return dToken["sType"] == sType


def g_space_between_tokens (dToken1, dToken2, nMin, nMax=None):
    "checks if spaces between tokens is >= <nMin> and <= <nMax>"
    nSpace = dToken2["nStart"] - dToken1["nEnd"]
    if nSpace < nMin:
        return False
    if nMax is not None and nSpace > nMax:
        return False
    return True


def g_token (lToken, i):
    "return token at index <i> in lToken (or the closest one)"
    if i < 0:
        return lToken[0]
    if i >= len(lToken):
        return lToken[-1]
    return lToken[i]



#### Disambiguator for regex rules

def select (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: select morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        echo("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def exclude (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: exclude morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        echo("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def define (dTokenPos, nPos, lMorph):
    "Disambiguation: set morphologies of token at <nPos> with <lMorph>"
    if nPos not in dTokenPos:
        echo("Error. There should be a token at this position: ", nPos)
        return True
    dTokenPos[nPos]["lMorph"] = lMorph
    return True


#### Disambiguation for graph rules

def g_select (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #echo("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #echo("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_exclude (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #echo("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #echo("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_add_morph (dToken, lNewMorph):
    "Disambiguation: add a morphology to a token"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    lMorph.extend(lNewMorph)
    dToken["lMorph"] = lMorph
    return True


def g_define (dToken, lMorph):
    "Disambiguation: set morphologies of <dToken>, always return True"
    dToken["lMorph"] = lMorph
    #echo("DA:", dToken["sValue"], lMorph)
    return True


def g_define_from (dToken, nLeft=None, nRight=None):
    "Disambiguation: set morphologies of <dToken> with slicing its value with <nLeft> and <nRight>"
    if nLeft is not None:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
    else:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"])
    return True


def g_change_meta (dToken, sType):
    "Disambiguation: change type of token"
    dToken["sType"] = sType
    return True



#### GRAMMAR CHECKER PLUGINS

${plugins}


#### CALLABLES FOR REGEX RULES (generated code)

${callables}


#### CALLABLES FOR GRAPH RULES (generated code)

${graph_callables}

Added gc_core/py/lang_core/gc_engine_func.py version [059237a0d9].












































































































































































































































































































































































































































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"""
Grammar checking functions
"""

# generated code, do not edit
# source: gc_core/py/lang_core/gc_engine_func.py

import re

from . import gc_options
from ..graphspell.echo import echo


_sAppContext = "Python"         # what software is running
_oSpellChecker = None


def load (sContext, oSpellChecker):
    global _sAppContext
    global _oSpellChecker
    _sAppContext = sContext
    _oSpellChecker = oSpellChecker


#### common functions

def option (sOpt):
    "return True if option <sOpt> is active"
    return gc_options.dOptions.get(sOpt, False)


#### Functions to get text outside pattern scope

# warning: check compile_rules.py to understand how it works

_zNextWord = re.compile(r" +(\w[\w-]*)")
_zPrevWord = re.compile(r"(\w[\w-]*) +$")

def nextword (s, iStart, n):
    "get the nth word of the input string or empty string"
    m = re.match("(?: +[\\w%-]+){" + str(n-1) + "} +([\\w%-]+)", s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword (s, iEnd, n):
    "get the (-)nth word of the input string or empty string"
    m = re.search("([\\w%-]+) +(?:[\\w%-]+ +){" + str(n-1) + "}$", s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def nextword1 (s, iStart):
    "get next word (optimization)"
    m = _zNextWord.match(s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword1 (s, iEnd):
    "get previous word (optimization)"
    m = _zPrevWord.search(s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def look (s, sPattern, sNegPattern=None):
    "seek sPattern in s (before/after/fulltext), if sNegPattern not in s"
    if sNegPattern and re.search(sNegPattern, s):
        return False
    if re.search(sPattern, s):
        return True
    return False


def look_chk1 (dTokenPos, s, nOffset, sPattern, sPatternGroup1, sNegPatternGroup1=""):
    "returns True if s has pattern sPattern and m.group(1) has pattern sPatternGroup1"
    m = re.search(sPattern, s)
    if not m:
        return False
    try:
        sWord = m.group(1)
        nPos = m.start(1) + nOffset
    except IndexError:
        return False
    return morph(dTokenPos, (nPos, sWord), sPatternGroup1, sNegPatternGroup1)



#### Analyse groups for regex rules

def displayInfo (dTokenPos, tWord):
    "for debugging: retrieve info of word"
    if not tWord:
        print("> nothing to find")
        return True
    lMorph = _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        print("> not in dictionary")
        return True
    print("TOKENS:", dTokenPos)
    if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]:
        print("DA: " + str(dTokenPos[tWord[0]]["lMorph"]))
    print("FSA: " + str(lMorph))
    return True


def morph (dTokenPos, tWord, sPattern, sNegPattern="", bNoWord=False):
    "analyse a tuple (position, word), returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation on)"
    if not tWord:
        return bNoWord
    lMorph = dTokenPos[tWord[0]]["lMorph"]  if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]  else _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def analyse (sWord, sPattern, sNegPattern=""):
    "analyse a word, returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation off)"
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


#### Analyse tokens for graph rules

def g_value (dToken, sValues, nLeft=None, nRight=None):
    "test if <dToken['sValue']> is in sValues (each value should be separated with |)"
    sValue = "|"+dToken["sValue"]+"|"  if nLeft is None  else "|"+dToken["sValue"][slice(nLeft, nRight)]+"|"
    if sValue in sValues:
        return True
    if dToken["sValue"][0:2].istitle(): # we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
        if sValue.lower() in sValues:
            return True
    elif dToken["sValue"].isupper():
        #if sValue.lower() in sValues:
        #    return True
        sValue = "|"+sValue[1:].capitalize()
        if sValue in sValues:
            return True
        sValue = sValue.lower()
        if sValue in sValues:
            return True
    return False


def g_morph (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies"
    if "lMorph" in dToken:
        lMorph = dToken["lMorph"]
    else:
        if nLeft is not None:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
            if bMemorizeMorph:
                dToken["lMorph"] = lMorph
        else:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def g_analyse (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)"
    if nLeft is not None:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
        if bMemorizeMorph:
            dToken["lMorph"] = lMorph
    else:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def g_merged_analyse (dToken1, dToken2, cMerger, sPattern, sNegPattern="", bSetMorph=True):
    "merge two token values, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)"
    lMorph = _oSpellChecker.getMorph(dToken1["sValue"] + cMerger + dToken2["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            bResult = all(zPattern.search(sMorph)  for sMorph in lMorph)
            if bResult and bSetMorph:
                dToken1["lMorph"] = lMorph
            return bResult
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    bResult = any(zPattern.search(sMorph)  for sMorph in lMorph)
    if bResult and bSetMorph:
        dToken1["lMorph"] = lMorph
    return bResult


def g_tag_before (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens before <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] > dTags[sTag][0]:
        return True
    return False


def g_tag_after (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens after <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] < dTags[sTag][1]:
        return True
    return False


def g_tag (dToken, sTag):
    "returns True if <sTag> is present on token <dToken>"
    return "aTags" in dToken and sTag in dToken["aTags"]


def g_meta (dToken, sType):
    "returns True if <sType> is equal to the token type"
    return dToken["sType"] == sType


def g_space_between_tokens (dToken1, dToken2, nMin, nMax=None):
    "checks if spaces between tokens is >= <nMin> and <= <nMax>"
    nSpace = dToken2["nStart"] - dToken1["nEnd"]
    if nSpace < nMin:
        return False
    if nMax is not None and nSpace > nMax:
        return False
    return True


def g_token (lToken, i):
    "return token at index <i> in lToken (or the closest one)"
    if i < 0:
        return lToken[0]
    if i >= len(lToken):
        return lToken[-1]
    return lToken[i]



#### Disambiguator for regex rules

def select (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: select morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        print("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def exclude (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: exclude morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        print("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def define (dTokenPos, nPos, lMorph):
    "Disambiguation: set morphologies of token at <nPos> with <lMorph>"
    if nPos not in dTokenPos:
        print("Error. There should be a token at this position: ", nPos)
        return True
    dTokenPos[nPos]["lMorph"] = lMorph
    return True


#### Disambiguation for graph rules

def g_select (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #print("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #print("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_exclude (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #print("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #print("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_add_morph (dToken, lNewMorph):
    "Disambiguation: add a morphology to a token"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    lMorph.extend(lNewMorph)
    dToken["lMorph"] = lMorph
    return True


def g_define (dToken, lMorph):
    "Disambiguation: set morphologies of <dToken>, always return True"
    dToken["lMorph"] = lMorph
    #print("DA:", dToken["sValue"], lMorph)
    return True


def g_define_from (dToken, nLeft=None, nRight=None):
    "Disambiguation: set morphologies of <dToken> with slicing its value with <nLeft> and <nRight>"
    if nLeft is not None:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
    else:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"])
    return True


def g_change_meta (dToken, sType):
    "Disambiguation: change type of token"
    dToken["sType"] = sType
    return True



#### GRAMMAR CHECKER PLUGINS

${plugins}


#### CALLABLES FOR REGEX RULES (generated code)

${callables}


#### CALLABLES FOR GRAPH RULES (generated code)

${graph_callables}

Modified gc_core/py/lang_core/gc_options.py from [b668596de4] to [4cbd062c46].

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"""
Grammar checker default options
"""

# generated code, do not edit
# source: gc_core/py/lang_core/gc_options.py

import traceback


dOptions = {}

_sAppContext = "Python"


def load (sContext="Python"):
    global dOptions
    global _sAppContext
    _sAppContext = sContext
    dOptions = getDefaultOptions(sContext)


def setOption (sOpt, bVal):
    "set option <sOpt> with <bVal> if it exists"
    if sOpt in dOptions:
        dOptions[sOpt] = bVal


def setOptions (dOpt):
    "update the dictionary of options with <dOpt>, only known options are updated"
    for sKey, bVal in dOpt.items():
        if sKey in dOptions:
            dOptions[sKey] = bVal


def getUI (sLang):
def getOptions ():
    "return a copy of options as dictionary"
    return dOptions.copy()


def resetOptions ():
    "set options to default values"
    global dOptions
    dOptions = getDefaultOptions()


def displayOptions (sLang="${lang}"):
    "display the list of grammar checking options"
    print("Options:")
    print("\n".join( [ k+":\t"+str(v)+"\t"+getOptionLabels(sLang).get(k, ("?", ""))[0]  for k, v  in sorted(dOptions.items()) ] ))
    print("")


def getOptionLabels (sLang="${sLang}"):
    "returns dictionary of UI labels"
    if sLang in _dOptLabel:
        return _dOptLabel[sLang]
    return _dOptLabel["fr"]
    return _dOptLabel["${sLang}"]


def getOptions (sContext="Python"):
def getDefaultOptions (sContext=""):
    "returns dictionary of options"
    if not sContext:
        sContext = _sAppContext
    if sContext in _dOpt:
        return _dOpt[sContext]
    return _dOpt["Python"]
    if sContext in _dDefaultOpt:
        return _dDefaultOpt[sContext].copy()    # duplication necessary, to be able to reset to default
    return _dDefaultOpt["Python"].copy()        # duplication necessary, to be able to reset to default


def getOptionsColors (sTheme="Default", sColorType="aRGB"):
    "returns dictionary of options colors"
    dOptColor = _dOptColor[sTheme]  if sTheme in _dOptColor  else  _dOptColor["Default"]
    dColorType = _dColorType[sColorType]  if sColorType in _dColorType  else _dColorType["aRGB"]
    try:
        return {  sOpt: dColorType[sColor] for sOpt, sColor in dOptColor.items() }
        return { sOpt: dColorType[sColor] for sOpt, sColor in dOptColor.items() }
    except KeyError:
        traceback.print_exc()
        return {}


lStructOpt = ${lStructOpt}


_dOpt = {
_dDefaultOpt = {
    "Python": ${dOptPython},
    "Server": ${dOptServer},
    "Writer": ${dOptWriter}
}

_dColorType= ${dColorType}

Modified gc_core/py/oxt/Grammalecte.py from [d7f4535da4] to [9c6625ba22].

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from com.sun.star.linguistic2 import XProofreader, XSupportedLocales
from com.sun.star.linguistic2 import ProofreadingResult
from com.sun.star.lang import XServiceInfo, XServiceName, XServiceDisplayName
from com.sun.star.lang import Locale

import helpers
import grammalecte.${lang} as gce
import grammalecte.${lang} as gc_engine
#import lightproof_handler_${implname} as opt_handler
import Options


class Grammalecte (unohelper.Base, XProofreader, XServiceInfo, XServiceName, XServiceDisplayName, XSupportedLocales):

    def __init__ (self, ctx, *args):
        self.ctx = ctx
        self.ServiceName = "com.sun.star.linguistic2.Proofreader"
        self.ImplementationName = "org.openoffice.comp.pyuno.Lightproof." + gce.pkg
        self.ImplementationName = "org.openoffice.comp.pyuno.Lightproof." + gc_engine.pkg
        self.SupportedServiceNames = (self.ServiceName, )
        self.locales = []
        for i in gce.locales:
            l = gce.locales[i]
        for i in gc_engine.locales:
            l = gc_engine.locales[i]
            self.locales.append(Locale(l[0], l[1], l[2]))
        self.locales = tuple(self.locales)
        # debug
        #helpers.startConsole()
        # init
        gce.load("Writer", "nInt")
        gc_engine.load("Writer", "nInt")
        # GC options
        #xContext = uno.getComponentContext()
        #opt_handler.load(xContext)
        dOpt = Options.loadOptions("${lang}")
        gce.setOptions(dOpt)
        gc_engine.gc_options.setOptions(dOpt)
        # dictionaries options
        self.loadUserDictionaries()
        # underlining options
        self.setWriterUnderliningStyle()
        # store for results of big paragraphs
        self.dResult = {}
        self.nMaxRes = 1500
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            if nHashedVal in self.dResult:
                return self.dResult[nHashedVal]
        # WORKAROUND ->>>

        xRes.nBehindEndOfSentencePosition = xRes.nStartOfNextSentencePosition

        try:
            xRes.aErrors = tuple(gce.parse(rText, rLocale.Country))
            xRes.aErrors = tuple(gc_engine.parse(rText, rLocale.Country))
            # ->>> WORKAROUND
            if xRes.nStartOfNextSentencePosition > 3000:
                self.dResult[nHashedVal] = xRes
                self.nRes += 1
                if self.nRes > self.nMaxRes:
                    del self.dResult[self.lLastRes.popleft()]
                    self.nRes = self.nMaxRes
                self.lLastRes.append(nHashedVal)
            # END OF WORKAROUND
        except:
            traceback.print_exc()
        return xRes

    def ignoreRule (self, rid, aLocale):
        gce.ignoreRule(rid)
        gc_engine.ignoreRule(rid)

    def resetIgnoreRules (self):
        gce.resetIgnoreRules()
        gc_engine.resetIgnoreRules()

    # XServiceDisplayName
    def getServiceDisplayName (self, aLocale):
        return gce.name
        return gc_engine.name

    # Grammalecte
    def getSpellChecker (self):
        return gce.getSpellChecker()
        return gc_engine.getSpellChecker()

    def loadUserDictionaries (self):
        try:
            xSettingNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Other/", False)
            xChild = xSettingNode.getByName("o_${lang}")
            if xChild.getPropertyValue("use_personal_dic"):
                sJSON = xChild.getPropertyValue("personal_dic")
                if sJSON:
                    oSpellChecker = gce.getSpellChecker();
                    oSpellChecker = gc_engine.getSpellChecker();
                    oSpellChecker.setPersonalDictionary(json.loads(sJSON))
        except:
            traceback.print_exc()

    def setWriterUnderliningStyle (self):
        try:
            xSettingNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Other/", False)
            xChild = xSettingNode.getByName("o_${lang}")
            sLineType = xChild.getPropertyValue("line_type")
            bMulticolor = bool(xChild.getPropertyValue("line_multicolor"))
            gce.setWriterUnderliningStyle(sLineType, bMulticolor)
            gc_engine.setWriterUnderliningStyle(sLineType, bMulticolor)
        except:
            traceback.print_exc()


g_ImplementationHelper = unohelper.ImplementationHelper()
g_ImplementationHelper.addImplementation(Grammalecte, "org.openoffice.comp.pyuno.Lightproof."+gce.pkg, ("com.sun.star.linguistic2.Proofreader",),)
g_ImplementationHelper.addImplementation(Grammalecte, "org.openoffice.comp.pyuno.Lightproof."+gc_engine.pkg, ("com.sun.star.linguistic2.Proofreader",),)

# g_ImplementationHelper.addImplementation( opt_handler.LightproofOptionsEventHandler, \
#     "org.openoffice.comp.pyuno.LightproofOptionsEventHandler." + gce.pkg, ("com.sun.star.awt.XContainerWindowEventHandler",),)
#     "org.openoffice.comp.pyuno.LightproofOptionsEventHandler." + gc_engine.pkg, ("com.sun.star.awt.XContainerWindowEventHandler",),)

Modified gc_core/py/oxt/Options.py from [3ed542ae4e] to [4ae6a22f71].

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from com.sun.star.awt import XActionListener
from com.sun.star.beans import PropertyValue

import helpers
import op_strings

try:
    import grammalecte.${lang} as gce
    import grammalecte.${lang} as gc_engine
except:
    traceback.print_exc()


def loadOptions (sLang):
    "load options from Grammalecte and change them according to LibreOffice settings, returns a dictionary {option_name: boolean}"
    try:
        xNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Leaves", False)
        xChild = xNode.getByName(sLang)
        dOpt = gce.gc_options.getOptions("Writer")
        dOpt = gc_engine.gc_options.getDefaultOptions("Writer")
        for sKey in dOpt:
            sValue = xChild.getPropertyValue(sKey)
            if sValue != '':
                dOpt[sKey] = bool(int(sValue))
        return dOpt
    except:
        print("# Error. Unable to load options of language:", sLang)
        traceback.print_exc()
        return gce.gc_options.getOptions("Writer")
        return gc_engine.gc_options.getDefaultOptions("Writer")


def saveOptions (sLang, dOpt):
    "save options in LibreOffice profile"
    try:
        xNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Leaves", True)
        xChild = xNode.getByName(sLang)
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            setattr(xWidget, k, w)
        self.xDialog.insertByName(name, xWidget)
        return xWidget

    def run (self, sUI):
        try:
            dUI = op_strings.getUI(sUI)
            dOptionUI = gce.gc_options.getUI(sUI)
            dOptionUI = gc_engine.gc_options.getOptionLabels(sUI)

            # fonts
            xFDTitle = uno.createUnoStruct("com.sun.star.awt.FontDescriptor")
            xFDTitle.Height = 9
            xFDTitle.Weight = uno.getConstantByName("com.sun.star.awt.FontWeight.BOLD")
            xFDTitle.Name = "Verdana"

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            nHeight = 10

            self.lOptionWidgets = []

            sProdName, sVersion = helpers.getProductNameAndVersion()
            if True:
                # no tab available (bug)
                for sOptionType, lOptions in gce.gc_options.lStructOpt:
                for sOptionType, lOptions in gc_engine.gc_options.lStructOpt:
                    x = 10
                    y += 10
                    self._addWidget(sOptionType, 'FixedLine', x, y, nWidth, nHeight, Label = dOptionUI.get(sOptionType, "#err")[0], FontDescriptor= xFDTitle)
                    y += 3
                    for lOptLine in lOptions:
                        x = 15
                        y += 10
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        except:
            traceback.print_exc()

    # XActionListener
    def actionPerformed (self, xActionEvent):
        try:
            if xActionEvent.ActionCommand == 'Default':
                self._setWidgets(gce.gc_options.getOptions("Writer"))
                self._setWidgets(gc_engine.gc_options.getDefaultOptions("Writer"))
            elif xActionEvent.ActionCommand == 'Apply':
                self._save("${lang}")
                self.xContainer.endExecute()
            elif xActionEvent.ActionCommand == 'Cancel':
                self.xContainer.endExecute()
            else:
                print("Wrong command: " + xActionEvent.ActionCommand)
        except:
            traceback.print_exc()

    # Other
    def _setWidgets (self, dOpt):
        for w in self.lOptionWidgets:
            w.State = dOpt.get(w.Name, False)

    def _save (self, sLang):
        try:
            saveOptions(sLang, { w.Name: str(w.State)  for w in self.lOptionWidgets })
            gce.setOptions({ w.Name: bool(w.State)  for w in self.lOptionWidgets })
            gc_engine.gc_options.setOptions({ w.Name: bool(w.State)  for w in self.lOptionWidgets })
        except:
            traceback.print_exc()

Modified gc_lang/fr/config.ini from [e537b6eb87] to [9df20b99dc].

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[args]
lang = fr
lang_name = French
locales = fr_FR fr_BE fr_CA fr_CH fr_LU fr_BF fr_BJ fr_CD fr_CI fr_CM fr_MA fr_ML fr_MU fr_NE fr_RE fr_SN fr_TG
country_default = FR
name = Grammalecte
implname = grammalecte
# always use 3 numbers for version: x.y.z
version = 1.8.2
version = 2.0.0
author = Olivier R.
provider = Grammalecte.net
link = https://grammalecte.net
description = Correcteur grammatical, orthographique et typographique pour le français.
extras = README_fr.txt
logo = logo.png

Deleted gc_lang/fr/modules/lexicographe.py version [36a85305ff].

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"""
Grammalecte - Lexicographe
"""

# License: MPL 2


import re
import traceback


_dTAGS = {
    ':N': (" nom,", "Nom"),
    ':A': (" adjectif,", "Adjectif"),
    ':M1': (" prénom,", "Prénom"),
    ':M2': (" patronyme,", "Patronyme, matronyme, nom de famille…"),
    ':MP': (" nom propre,", "Nom propre"),
    ':W': (" adverbe,", "Adverbe"),
    ':J': (" interjection,", "Interjection"),
    ':B': (" nombre,", "Nombre"),
    ':T': (" titre,", "Titre de civilité"),

    ':e': (" épicène", "épicène"),
    ':m': (" masculin", "masculin"),
    ':f': (" féminin", "féminin"),
    ':s': (" singulier", "singulier"),
    ':p': (" pluriel", "pluriel"),
    ':i': (" invariable", "invariable"),

    ':V1': (" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"),
    ':V2': (" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"),
    ':V3': (" verbe (3ᵉ gr.),", "Verbe du 3ᵉ groupe"),
    ':V0e': (" verbe,", "Verbe auxiliaire être"),
    ':V0a': (" verbe,", "Verbe auxiliaire avoir"),

    ':Y': (" infinitif,", "infinitif"),
    ':P': (" participe présent,", "participe présent"),
    ':Q': (" participe passé,", "participe passé"),
    ':Ip': (" présent,", "indicatif présent"),
    ':Iq': (" imparfait,", "indicatif imparfait"),
    ':Is': (" passé simple,", "indicatif passé simple"),
    ':If': (" futur,", "indicatif futur"),
    ':K': (" conditionnel présent,", "conditionnel présent"),
    ':Sp': (" subjonctif présent,", "subjonctif présent"),
    ':Sq': (" subjonctif imparfait,", "subjonctif imparfait"),
    ':E': (" impératif,", "impératif"),

    ':1s': (" 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier"),
    ':1ŝ': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':1ś': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':2s': (" 2ᵉ p. sg.,", "verbe : 2ᵉ personne du singulier"),
    ':3s': (" 3ᵉ p. sg.,", "verbe : 3ᵉ personne du singulier"),
    ':1p': (" 1ʳᵉ p. pl.,", "verbe : 1ʳᵉ personne du pluriel"),
    ':2p': (" 2ᵉ p. pl.,", "verbe : 2ᵉ personne du pluriel"),
    ':3p': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel"),
    ':3p!': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel (prononciation distinctive)"),

    ':G': ("", "Mot grammatical"),
    ':X': (" adverbe de négation,", "Adverbe de négation"),
    ':U': (" adverbe interrogatif,", "Adverbe interrogatif"),
    ':R': (" préposition,", "Préposition"),
    ':Rv': (" préposition verbale,", "Préposition verbale"),
    ':D': (" déterminant,", "Déterminant"),
    ':Dd': (" déterminant démonstratif,", "Déterminant démonstratif"),
    ':De': (" déterminant exclamatif,", "Déterminant exclamatif"),
    ':Dp': (" déterminant possessif,", "Déterminant possessif"),
    ':Di': (" déterminant indéfini,", "Déterminant indéfini"),
    ':Dn': (" déterminant négatif,", "Déterminant négatif"),
    ':Od': (" pronom démonstratif,", "Pronom démonstratif"),
    ':Oi': (" pronom indéfini,", "Pronom indéfini"),
    ':On': (" pronom indéfini négatif,", "Pronom indéfini négatif"),
    ':Ot': (" pronom interrogatif,", "Pronom interrogatif"),
    ':Or': (" pronom relatif,", "Pronom relatif"),
    ':Ow': (" pronom adverbial,", "Pronom adverbial"),
    ':Os': (" pronom personnel sujet,", "Pronom personnel sujet"),
    ':Oo': (" pronom personnel objet,", "Pronom personnel objet"),
    ':Ov': (" préverbe,", "Préverbe (pronom personnel objet, +ne)"),
    ':O1': (" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"),
    ':O2': (" 2ᵉ pers.,", "Pronom : 2ᵉ personne"),
    ':O3': (" 3ᵉ pers.,", "Pronom : 3ᵉ personne"),
    ':C': (" conjonction,", "Conjonction"),
    ':Ĉ': (" conjonction (él.),", "Conjonction (élément)"),
    ':Cc': (" conjonction de coordination,", "Conjonction de coordination"),
    ':Cs': (" conjonction de subordination,", "Conjonction de subordination"),
    ':Ĉs': (" conjonction de subordination (él.),", "Conjonction de subordination (élément)"),

    ':Ñ': (" locution nominale (él.),", "Locution nominale (élément)"),
    ':Â': (" locution adjectivale (él.),", "Locution adjectivale (élément)"),
    ':Ṽ': (" locution verbale (él.),", "Locution verbale (élément)"),
    ':Ŵ': (" locution adverbiale (él.),", "Locution adverbiale (élément)"),
    ':Ŕ': (" locution prépositive (él.),", "Locution prépositive (élément)"),
    ':Ĵ': (" locution interjective (él.),", "Locution interjective (élément)"),

    ':Zp': (" préfixe,", "Préfixe"),
    ':Zs': (" suffixe,", "Suffixe"),

    ':H': ("", "<Hors-norme, inclassable>"),

    ':@': ("", "<Caractère non alpha-numérique>"),
    ':@p': ("signe de ponctuation", "Signe de ponctuation"),
    ':@s': ("signe", "Signe divers"),

    ';S': (" : symbole (unité de mesure)", "Symbole (unité de mesure)"),

    '/*': ("", "Sous-dictionnaire <Commun>"),
    '/C': (" <classique>", "Sous-dictionnaire <Classique>"),
    '/M': ("", "Sous-dictionnaire <Moderne>"),
    '/R': (" <réforme>", "Sous-dictionnaire <Réforme 1990>"),
    '/A': ("", "Sous-dictionnaire <Annexe>"),
    '/X': ("", "Sous-dictionnaire <Contributeurs>")
}

_dPFX = {
    'd': "(de), déterminant épicène invariable",
    'l': "(le/la), déterminant masculin/féminin singulier",
    'j': "(je), pronom personnel sujet, 1ʳᵉ pers., épicène singulier",
    'm': "(me), pronom personnel objet, 1ʳᵉ pers., épicène singulier",
    't': "(te), pronom personnel objet, 2ᵉ pers., épicène singulier",
    's': "(se), pronom personnel objet, 3ᵉ pers., épicène singulier/pluriel",
    'n': "(ne), adverbe de négation",
    'c': "(ce), pronom démonstratif, masculin singulier/pluriel",
    'ç': "(ça), pronom démonstratif, masculin singulier",
    'qu': "(que), conjonction de subordination",
    'lorsqu': "(lorsque), conjonction de subordination",
    'puisqu': "(puisque), conjonction de subordination",
    'quoiqu': "(quoique), conjonction de subordination",
    'jusqu': "(jusque), préposition",
}

_dAD = {
    'je': " pronom personnel sujet, 1ʳᵉ pers. sing.",
    'tu': " pronom personnel sujet, 2ᵉ pers. sing.",
    'il': " pronom personnel sujet, 3ᵉ pers. masc. sing.",
    'on': " pronom personnel sujet, 3ᵉ pers. sing. ou plur.",
    'elle': " pronom personnel sujet, 3ᵉ pers. fém. sing.",
    'nous': " pronom personnel sujet/objet, 1ʳᵉ pers. plur.",
    'vous': " pronom personnel sujet/objet, 2ᵉ pers. plur.",
    'ils': " pronom personnel sujet, 3ᵉ pers. masc. plur.",
    'elles': " pronom personnel sujet, 3ᵉ pers. masc. plur.",

    "là": " particule démonstrative",
    "ci": " particule démonstrative",

    'le': " COD, masc. sing.",
    'la': " COD, fém. sing.",
    'les': " COD, plur.",

    'moi': " COI (à moi), sing.",
    'toi': " COI (à toi), sing.",
    'lui': " COI (à lui ou à elle), sing.",
    'nous2': " COI (à nous), plur.",
    'vous2': " COI (à vous), plur.",
    'leur': " COI (à eux ou à elles), plur.",

    'y': " pronom adverbial",
    "m'y": " (me) pronom personnel objet + (y) pronom adverbial",
    "t'y": " (te) pronom personnel objet + (y) pronom adverbial",
    "s'y": " (se) pronom personnel objet + (y) pronom adverbial",

    'en': " pronom adverbial",
    "m'en": " (me) pronom personnel objet + (en) pronom adverbial",
    "t'en": " (te) pronom personnel objet + (en) pronom adverbial",
    "s'en": " (se) pronom personnel objet + (en) pronom adverbial",
}


class Lexicographe:
    "Lexicographer - word analyzer"

    def __init__ (self, oSpellChecker):
        self.oSpellChecker = oSpellChecker
        self._zElidedPrefix = re.compile("(?i)^([dljmtsncç]|quoiqu|lorsqu|jusqu|puisqu|qu)['’](.+)")
        self._zCompoundWord = re.compile("(?i)(\\w+)-((?:les?|la)-(?:moi|toi|lui|[nv]ous|leur)|t-(?:il|elle|on)|y|en|[mts][’'](?:y|en)|les?|l[aà]|[mt]oi|leur|lui|je|tu|ils?|elles?|on|[nv]ous)$")
        self._zTag = re.compile("[:;/][\\w*][^:;/]*")

    def analyzeWord (self, sWord):
        "returns a tuple (a list of morphologies, a set of verb at infinitive form)"
        try:
            if not sWord:
                return (None, None)
            if sWord.count("-") > 4:
                return (["élément complexe indéterminé"], None)
            if sWord.isdigit():
                return (["nombre"], None)

            aMorph = []
            # préfixes élidés
            m = self._zElidedPrefix.match(sWord)
            if m:
                sWord = m.group(2)
                aMorph.append( "{}’ : {}".format(m.group(1), _dPFX.get(m.group(1).lower(), "[?]")) )
            # mots composés
            m2 = self._zCompoundWord.match(sWord)
            if m2:
                sWord = m2.group(1)
            # Morphologies
            lMorph = self.oSpellChecker.getMorph(sWord)
            if len(lMorph) > 1:
                # sublist
                aMorph.append( (sWord, [ self.formatTags(s)  for s in lMorph  if ":" in s ]) )
            elif len(lMorph) == 1:
                aMorph.append( "{} : {}".format(sWord, self.formatTags(lMorph[0])) )
            else:
                aMorph.append( "{} :  inconnu du dictionnaire".format(sWord) )
            # suffixe d’un mot composé
            if m2:
                aMorph.append( "-{} : {}".format(m2.group(2), self._formatSuffix(m2.group(2).lower())) )
            # Verbes
            aVerb = { s[1:s.find("/")]  for s in lMorph  if ":V" in s }
            return (aMorph, aVerb)
        except (IndexError, TypeError):
            traceback.print_exc()
            return (["#erreur"], None)

    def formatTags (self, sTags):
        "returns string: readable tags"
        sRes = ""
        sTags = re.sub("(?<=V[1-3])[itpqnmr_eaxz]+", "", sTags)
        sTags = re.sub("(?<=V0[ea])[itpqnmr_eaxz]+", "", sTags)
        for m in self._zTag.finditer(sTags):
            sRes += _dTAGS.get(m.group(0), " [{}]".format(m.group(0)))[0]
        if sRes.startswith(" verbe") and not sRes.endswith("infinitif"):
            sRes += " [{}]".format(sTags[1:sTags.find("/")])
        return sRes.rstrip(",")

    def _formatSuffix (self, s):
        if s.startswith("t-"):
            return "“t” euphonique +" + _dAD.get(s[2:], "[?]")
        if not "-" in s:
            return _dAD.get(s.replace("’", "'"), "[?]")
        if s.endswith("ous"):
            s += '2'
        nPos = s.find("-")
        return "%s +%s" % (_dAD.get(s[:nPos], "[?]"), _dAD.get(s[nPos+1:], "[?]"))

Modified gc_lang/fr/modules/tests.py from [544edd53c7] to [34a3376ab5].

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import os
import re
import time
from contextlib import contextmanager

from ..graphspell.ibdawg import IBDAWG
from ..graphspell.echo import echo
from . import gc_engine as gce
from . import gc_engine
from . import conj
from . import phonet
from . import mfsp


@contextmanager
def timeblock (label, hDst):
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        if hDst:
            hDst.write("{:<12.6}".format(end-start))


def perf (sVersion, hDst=None):
    "performance tests"
    print("\nPerformance tests")
    gce.load()
    gce.parse("Texte sans importance… utile pour la compilation des règles avant le calcul des perfs.")
    gc_engine.load()
    gc_engine.parse("Texte sans importance… utile pour la compilation des règles avant le calcul des perfs.")

    spHere, _ = os.path.split(__file__)
    with open(os.path.join(spHere, "perf.txt"), "r", encoding="utf-8") as hSrc:
        if hDst:
            hDst.write("{:<12}{:<20}".format(sVersion, time.strftime("%Y.%m.%d %H:%M")))
        for sText in ( s.strip() for s in hSrc if not s.startswith("#") and s.strip() ):
            with timeblock(sText[:sText.find(".")], hDst):
                gce.parse(sText)
                gc_engine.parse(sText)
        if hDst:
            hDst.write("\n")


def _fuckBackslashUTF8 (s):
    "fuck that shit"
    return s.replace("\u2019", "'").replace("\u2013", "–").replace("\u2014", "—")
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class TestGrammarChecking (unittest.TestCase):
    "Tests du correcteur grammatical"

    @classmethod
    def setUpClass (cls):
        gce.load()
        gc_engine.load()
        cls._zError = re.compile(r"\{\{.*?\}\}")
        cls._aTestedRules = set()

    def test_parse (self):
        zOption = re.compile("^__([a-zA-Z0-9]+)__ ")
        spHere, _ = os.path.split(__file__)
        with open(os.path.join(spHere, "gc_test.txt"), "r", encoding="utf-8") as hSrc:
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                              "\n  errors:   \n" + sListErr)
                        nError += 1
            if nError:
                print("Unexpected errors:", nError)
        # untested rules
        i = 0
        echo("Untested rules:")
        for _, sOpt, sLineId, sRuleId in gce.listRules():
        for _, sOpt, sLineId, sRuleId in gc_engine.listRules():
            if sOpt != "@@@@" and sRuleId not in self._aTestedRules and not re.search("^[0-9]+[sp]$|^[pd]_", sRuleId):
                echo(sLineId + "/" + sRuleId)
                i += 1
        echo("[{} untested rules]".format(i))

    def _splitTestLine (self, sLine):
        sText, sSugg = sLine.split("->>")
        return (sText.strip(), sSugg.strip())

    def _getFoundErrors (self, sLine, sOption):
        if sOption:
            gce.setOption(sOption, True)
            aErrs = gce.parse(sLine)
            gce.setOption(sOption, False)
            gc_engine.gc_options.setOption(sOption, True)
            aErrs = gc_engine.parse(sLine)
            gc_engine.gc_options.setOption(sOption, False)
        else:
            aErrs = gce.parse(sLine)
            aErrs = gc_engine.parse(sLine)
        sRes = " " * len(sLine)
        sListErr = ""
        lAllSugg = []
        for dErr in aErrs:
            sRes = sRes[:dErr["nStart"]] + "~" * (dErr["nEnd"] - dErr["nStart"]) + sRes[dErr["nEnd"]:]
            sListErr += "    * {sLineId} / {sRuleId}  at  {nStart}:{nEnd}\n".format(**dErr)
            lAllSugg.append("|".join(dErr["aSuggestions"]))

Modified gc_lang/fr/modules/textformatter.py from [4ba47078d2] to [8516394c0d].

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    "mh_frequent_words": True,
    "ma_word": True,
    "ma_1letter_lowercase": False,
    "ma_1letter_uppercase": False
}


class TextFormatter:
_bCompiled = False
    "Text Formatter: purge typographic mistakes from text"

    def __init__ (self):
        for _, lTup in dReplTable.items():
            for i, t in enumerate(lTup):
                lTup[i] = (re.compile(t[0]), t[1])
def _compileRegex():
    global _bCompiled
    for _, lTup in dReplTable.items():
        for i, t in enumerate(lTup):
            lTup[i] = (re.compile(t[0]), t[1])
    _bCompiled = True


    def formatText (self, sText):
        "returns formatted text"
        for sOptName, bVal in dDefaultOptions.items():
            if bVal:
                for zRgx, sRep in dReplTable[sOptName]:
                    sText = zRgx.sub(sRep, sText)
        return sText
def formatText (sText, dOpt=None):
    "returns formatted text"
    if not _bCompiled:
        _compileRegex()
    dOptions = getDefaultOptions()
    if dOpt:
        dOptions.update(dOpt)
    for sOptName, bVal in dOptions.items():
        if bVal:
            for zRgx, sRep in dReplTable[sOptName]:
                sText = zRgx.sub(sRep, sText)
    return sText


    def getDefaultOptions (self):
        "returns default options"
        return dDefaultOptions.copy()
def getDefaultOptions ():
    "returns default options"
    return dDefaultOptions.copy()

Modified gc_lang/fr/oxt/ContextMenu/ContextMenu.py from [f06cffc0e3] to [172f2404b4].

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# Grammalecte - Lexicographe
# by Olivier R. License: MPL 2

import uno
import unohelper
import traceback

from com.sun.star.task import XJob
from com.sun.star.ui import XContextMenuInterceptor
#from com.sun.star.ui.ContextMenuInterceptorAction import IGNORED
#from com.sun.star.ui.ContextMenuInterceptorAction import EXECUTE_MODIFIED

import grammalecte.fr.lexicographe as lxg
from grammalecte.graphspell.spellchecker import SpellChecker
from grammalecte.graphspell.echo import echo
import helpers


xDesktop = None
oSpellChecker = None
oLexicographe = None


class MyContextMenuInterceptor (XContextMenuInterceptor, unohelper.Base):
    def __init__ (self, ctx):
        self.ctx = ctx

    def notifyContextMenuExecute (self, xEvent):
        sWord = self._getWord()
        try:
            aItem, aVerb = oLexicographe.analyzeWord(sWord)
            if not aItem:
            lWordAndMorph = oSpellChecker.analyze(sWord)
            if not lWordAndMorph:
                return uno.Enum("com.sun.star.ui.ContextMenuInterceptorAction", "IGNORED") # don’t work on AOO, have to import the value
                #return IGNORED
            xContextMenu = xEvent.ActionTriggerContainer
            if xContextMenu:
                # entries index
                i = xContextMenu.Count
                nUnoConstantLine = uno.getConstantByName("com.sun.star.ui.ActionTriggerSeparatorType.LINE")

                # word analysis
                i = self._addItemToContextMenu(xContextMenu, i, "ActionTriggerSeparator", SeparatorType=nUnoConstantLine)
                for item in aItem:
                    if isinstance(item, str):
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=item, CommandURL="service:net.grammalecte.AppLauncher?None")
                for sWord, lMorph in lWordAndMorph:
                    if len(lMorph) == 1:
                        sMorph, sReadableMorph = lMorph[0]
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sWord + " : " + sReadableMorph, CommandURL="service:net.grammalecte.AppLauncher?None")
                    elif isinstance(item, tuple):
                        sRoot, lMorph = item
                    elif len(lMorph) >= 1:
                        # submenu
                        xSubMenuContainer = xContextMenu.createInstance("com.sun.star.ui.ActionTriggerContainer")
                        for j, s in enumerate(lMorph):
                            self._addItemToContextMenu(xSubMenuContainer, j, "ActionTrigger", Text=s, CommandURL="service:net.grammalecte.AppLauncher?None")
                        for j, (sMorph, sReadableMorph) in enumerate(lMorph):
                            self._addItemToContextMenu(xSubMenuContainer, j, "ActionTrigger", Text=sReadableMorph, CommandURL="service:net.grammalecte.AppLauncher?None")
                        # create root menu entry
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sRoot, SubContainer=xSubMenuContainer)
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sWord, SubContainer=xSubMenuContainer)
                    else:
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text="# erreur : {}".format(item))
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sWord + " : [erreur] aucun résultat trouvé.")

                # Links to Conjugueur
                aVerb = { sMorph[1:sMorph.find("/")]  for sMorph in oSpellChecker.getMorph(sWord) if ":V" in sMorph }
                if aVerb:
                    i = self._addItemToContextMenu(xContextMenu, i, "ActionTriggerSeparator", SeparatorType=nUnoConstantLine)
                    for sVerb in aVerb:
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text="Conjuguer “{}”…".format(sVerb),
                                                       CommandURL="service:net.grammalecte.AppLauncher?CJ/"+sVerb)
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text="Conjuguer “{}”…".format(sVerb), \
                                                        CommandURL="service:net.grammalecte.AppLauncher?CJ/"+sVerb)

                # Search
                xDoc = xDesktop.getCurrentComponent()
                xViewCursor = xDoc.CurrentController.ViewCursor
                if not xViewCursor.isCollapsed():
                    sSelec = xViewCursor.getString()
                    if sSelec.count(" ") <= 2:
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class JobExecutor (XJob, unohelper.Base):
    def __init__ (self, ctx):
        self.ctx = ctx
        global xDesktop
        global oSpellChecker
        global oLexicographe
        try:
            if not xDesktop:
                xDesktop = self.ctx.getServiceManager().createInstanceWithContext('com.sun.star.frame.Desktop', self.ctx)
            if not oSpellChecker:
                xCurCtx = uno.getComponentContext()
                oGC = self.ctx.ServiceManager.createInstanceWithContext("org.openoffice.comp.pyuno.Lightproof.grammalecte", self.ctx)
                if hasattr(oGC, "getSpellChecker"):
                    # https://bugs.documentfoundation.org/show_bug.cgi?id=97790
                    oSpellChecker = oGC.getSpellChecker()
                else:
                    oSpellChecker = SpellChecker("${lang}", "fr-allvars.bdic")
            if not oLexicographe:
                oLexicographe = lxg.Lexicographe(oSpellChecker)
        except:
            traceback.print_exc()

    def execute (self, args):
        if not args:
            return
        try:

Modified gc_lang/fr/webext/gce_worker.js from [67fa9791af] to [129eee4726].

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importScripts("grammalecte/fr/conj.js");
importScripts("grammalecte/fr/mfsp.js");
importScripts("grammalecte/fr/phonet.js");
importScripts("grammalecte/fr/cregex.js");
importScripts("grammalecte/fr/gc_options.js");
importScripts("grammalecte/fr/gc_rules.js");
importScripts("grammalecte/fr/gc_rules_graph.js");
importScripts("grammalecte/fr/gc_engine_func.js");
importScripts("grammalecte/fr/gc_engine.js");
importScripts("grammalecte/fr/lexicographe.js");
importScripts("grammalecte/tests.js");
/*
    Warning.
    Initialization can’t be completed at startup of the worker,
    for we need the path of the extension to load data stored in JSON files.
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            oTokenizer = new Tokenizer("fr");
            oLocution =  helpers.loadFile(sExtensionPath + "/grammalecte/fr/locutions_data.json");
            oLxg = new Lexicographe(oSpellChecker, oTokenizer, oLocution);
            if (dOptions !== null) {
                if (!(dOptions instanceof Map)) {
                    dOptions = helpers.objectToMap(dOptions);
                }
                gc_engine.setOptions(dOptions);
                gc_options.setOptions(dOptions);
            }
            //tests();
            bInitDone = true;
        } else {
            console.log("[Worker] Already initialized…")
        }
        // we always retrieve options from the gc_engine, for setOptions filters obsolete options
        dOptions = helpers.mapToObject(gc_engine.getOptions());
        // we always retrieve options from the gc_options, for setOptions filters obsolete options
        dOptions = helpers.mapToObject(gc_options.getOptions());
        postMessage(createResponse("init", dOptions, oInfo, true));
    }
    catch (e) {
        console.error(e);
        postMessage(createResponse("init", createErrorResult(e, "init failed"), oInfo, true, true));
    }
}

Modified grammalecte-cli.py from [7b2821616b] to [1c366da1c4].

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import argparse
import json
import re
import traceback

import grammalecte
import grammalecte.text as txt
import grammalecte.fr.textformatter as tf
from grammalecte.graphspell.echo import echo


_EXAMPLE = "Quoi ? Racontes ! Racontes-moi ! Bon sangg, parles ! Oui. Il y a des menteur partout. " \
           "Je suit sidéré par la brutales arrogance de cette homme-là. Quelle salopard ! Un escrocs de la pire espece. " \
           "Quant sera t’il châtiés pour ses mensonge ?             Merde ! J’en aie marre."

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    xParser.add_argument("-sug", "--suggest", help="get suggestions list for given word", type=str)
    xParser.add_argument("-on", "--opt_on", nargs="+", help="activate options")
    xParser.add_argument("-off", "--opt_off", nargs="+", help="deactivate options")
    xParser.add_argument("-roff", "--rule_off", nargs="+", help="deactivate rules")
    xParser.add_argument("-d", "--debug", help="debugging mode (only in interactive mode)", action="store_true")
    xArgs = xParser.parse_args()

    oGrammarChecker = grammalecte.GrammarChecker("fr")
    oSpellChecker = oGrammarChecker.getSpellChecker()
    grammalecte.load()
    oSpellChecker = grammalecte.getSpellChecker()
    oLexicographer = oGrammarChecker.getLexicographer()
    oTextFormatter = oGrammarChecker.getTextFormatter()
    if xArgs.personal_dict:
        oJSON = loadDictionary(xArgs.personal_dict)
        if oJSON:
            oSpellChecker.setPersonalDictionary(oJSON)

    if not xArgs.json:
        echo("Python v" + sys.version)
        echo("Grammalecte v{}".format(oGrammarChecker.gce.version))
        echo("Grammalecte v{}".format(grammalecte.version))

    # list options or rules
    if xArgs.list_options or xArgs.list_rules:
        if xArgs.list_options:
            oGrammarChecker.gce.displayOptions("fr")
            grammalecte.gc_options.displayOptions()
        if xArgs.list_rules:
            oGrammarChecker.gce.displayRules(None  if xArgs.list_rules == "*"  else xArgs.list_rules)
            grammalecte.displayRules(None  if xArgs.list_rules == "*"  else xArgs.list_rules)
        exit()

    # spell suggestions
    if xArgs.suggest:
        for lSugg in oSpellChecker.suggest(xArgs.suggest):
            if xArgs.json:
                sText = json.dumps({ "aSuggestions": lSugg }, ensure_ascii=False)
            else:
                sText = "Suggestions : " + " | ".join(lSugg)
            echo(sText)
        exit()

    # disable options
    if not xArgs.json:
        xArgs.context = False
    if xArgs.concat_lines:
        xArgs.textformatter = False

    # grammar options
    oGrammarChecker.gce.setOptions({"html": True, "latex": True})
    grammalecte.gc_options.setOptions({"html": True, "latex": True})
    if xArgs.opt_on:
        oGrammarChecker.gce.setOptions({ opt:True  for opt in xArgs.opt_on })
        grammalecte.gc_options.setOptions({ opt:True  for opt in xArgs.opt_on })
    if xArgs.opt_off:
        oGrammarChecker.gce.setOptions({ opt:False  for opt in xArgs.opt_off })
        grammalecte.gc_options.setOptions({ opt:False  for opt in xArgs.opt_off })

    # disable grammar rules
    if xArgs.rule_off:
        for sRule in xArgs.rule_off:
            oGrammarChecker.gce.ignoreRule(sRule)
            grammalecte.ignoreRule(sRule)


    if xArgs.file or xArgs.file_to_file:
        # file processing
        sFile = xArgs.file or xArgs.file_to_file
        hDst = open(sFile[:sFile.rfind(".")]+".res.txt", "w", encoding="utf-8", newline="\n")  if xArgs.file_to_file or sys.platform == "win32"  else None
        bComma = False
        if xArgs.json:
            output('{ "grammalecte": "'+oGrammarChecker.gce.version+'", "lang": "'+oGrammarChecker.gce.lang+'", "data" : [\n', hDst)
            output('{ "grammalecte": "'+grammalecte.version+'", "lang": "'+grammalecte.lang+'", "data" : [\n', hDst)
        for i, sText, lLineSet in generateParagraphFromFile(sFile, xArgs.concat_lines):
            if xArgs.textformatter or xArgs.textformatteronly:
                sText = oTextFormatter.formatText(sText)
                sText = tf.formatText(sText)
            if xArgs.textformatteronly:
                output(sText, hDst)
                continue
            if xArgs.json:
                sText = oGrammarChecker.getParagraphErrorsAsJSON(i, sText, bContext=xArgs.context, bEmptyIfNoErrors=xArgs.only_when_errors, \
                sText = grammalecte.getParagraphErrorsAsJSON(i, sText, bContext=xArgs.context, bEmptyIfNoErrors=xArgs.only_when_errors, \
                                                                bSpellSugg=xArgs.with_spell_sugg, bReturnText=xArgs.textformatter, lLineSet=lLineSet)
            else:
                sText, _ = oGrammarChecker.getParagraphWithErrors(sText, bEmptyIfNoErrors=xArgs.only_when_errors, bSpellSugg=xArgs.with_spell_sugg, nWidth=xArgs.width)
                sText, _ = grammalecte.getParagraphWithErrors(sText, bEmptyIfNoErrors=xArgs.only_when_errors, bSpellSugg=xArgs.with_spell_sugg, nWidth=xArgs.width)
            if sText:
                if xArgs.json and bComma:
                    output(",\n", hDst)
                output(sText, hDst)
                bComma = True
            if hDst:
                echo("§ %d\r" % i, end="", flush=True)
        if xArgs.json:
            output("\n]}\n", hDst)
    elif xArgs.interactive_file_to_file:
        # file processing: interactive mode
        sFile = xArgs.interactive_file_to_file
        hDst = open(sFile[:sFile.rfind(".")]+".res.txt", "w", encoding="utf-8", newline="\n")
        for i, sText, lLineSet in generateParagraphFromFile(sFile, xArgs.concat_lines):
            if xArgs.textformatter:
                sText = oTextFormatter.formatText(sText)
                sText = tf.formatText(sText)
            while True:
                sResult, lErrors = oGrammarChecker.getParagraphWithErrors(sText, bEmptyIfNoErrors=False, bSpellSugg=True, nWidth=xArgs.width)
                sResult, lErrors = grammalecte.getParagraphWithErrors(sText, bEmptyIfNoErrors=False, bSpellSugg=True, nWidth=xArgs.width)
                print("\n\n============================== Paragraph " + str(i) + " ==============================\n")
                echo(sResult)
                print("\n")
                vCommand = getCommand()
                if vCommand == "q":
                    # quit
                    hDst.close()
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        sInputText = "\n~==========~ Enter your text [/h /q] ~==========~\n"
        sText = _getText(sInputText)
        while True:
            if sText.startswith("?"):
                for sWord in sText[1:].strip().split():
                    if sWord:
                        echo("* " + sWord)
                        for sMorph in oSpellChecker.getMorph(sWord):
                            echo("  {:<32} {}".format(sMorph, oLexicographer.formatTags(sMorph)))
                        for sElem, aRes in oSpellChecker.analyze(sWord):
                            echo("  - " + sElem)
                            for sMorph, sMeaning in aRes:
                                echo("      {:<40}  {}".format(sMorph, sMeaning))
            elif sText.startswith("!"):
                for sWord in sText[1:].strip().split():
                    if sWord:
                        for lSugg in oSpellChecker.suggest(sWord):
                            echo(" | ".join(lSugg))
            elif sText.startswith(">"):
                oSpellChecker.drawPath(sText[1:].strip())
            elif sText.startswith("="):
                sSearch = sText[1:].strip()
                if "=" in sSearch:
                    nCut = sSearch.find("=")
                    sFlexPattern = sSearch[0:nCut]
                    sTagsPattern = sSearch[nCut+1:]
                else:
                    sFlexPattern = sSearch
                    sTagsPattern = ""
                for aRes in oSpellChecker.select(sFlexPattern, sTagsPattern):
                    echo("{:<30} {:<30} {}".format(*aRes))
            elif sText.startswith("/o+ "):
                oGrammarChecker.gce.setOptions({ opt:True  for opt in sText[3:].strip().split()  if opt in oGrammarChecker.gce.getOptions() })
                grammalecte.gc_options.setOptions({ opt:True  for opt in sText[3:].strip().split()  if opt in grammalecte.gc_options.dOptions })
                echo("done")
            elif sText.startswith("/o- "):
                oGrammarChecker.gce.setOptions({ opt:False  for opt in sText[3:].strip().split()  if opt in oGrammarChecker.gce.getOptions() })
                grammalecte.gc_options.setOptions({ opt:False  for opt in sText[3:].strip().split()  if opt in grammalecte.gc_options.dOptions })
                echo("done")
            elif sText.startswith("/r- "):
                for sRule in sText[3:].strip().split():
                    oGrammarChecker.gce.ignoreRule(sRule)
                    grammalecte.ignoreRule(sRule)
                echo("done")
            elif sText.startswith("/r+ "):
                for sRule in sText[3:].strip().split():
                    oGrammarChecker.gce.reactivateRule(sRule)
                    grammalecte.reactivateRule(sRule)
                echo("done")
            elif sText in ("/debug", "/d"):
                xArgs.debug = not xArgs.debug
                echo("debug mode on"  if xArgs.debug  else "debug mode off")
            elif sText in ("/textformatter", "/tf"):
                xArgs.textformatter = not xArgs.textformatter
                echo("textformatter on"  if xArgs.debug  else "textformatter off")
                echo("textformatter on"  if xArgs.textformatter  else "textformatter off")
            elif sText in ("/help", "/h"):
                echo(_HELP)
            elif sText in ("/lopt", "/lo"):
                oGrammarChecker.gce.displayOptions("fr")
                grammalecte.gc_options.displayOptions()
            elif sText.startswith("/lr"):
                sText = sText.strip()
                sFilter = sText[sText.find(" "):].strip()  if " " in sText  else None
                oGrammarChecker.gce.displayRules(sFilter)
                grammalecte.displayRules(sFilter)
            elif sText in ("/quit", "/q"):
                break
            elif sText.startswith("/rl"):
                # reload (todo)
                pass
            elif sText.startswith("$"):
                for sParagraph in txt.getParagraph(sText[1:]):
                    if xArgs.textformatter:
                        sParagraph = oTextFormatter.formatText(sParagraph)
                    lParagraphErrors, lSentences = oGrammarChecker.gce.parse(sParagraph, bDebug=xArgs.debug, bFullInfo=True)
                        sParagraph = tf.formatText(sParagraph)
                    lParagraphErrors, lSentences = grammalecte.parse(sParagraph, bDebug=xArgs.debug, bFullInfo=True)
                    echo(txt.getReadableErrors(lParagraphErrors, xArgs.width))
                    for dSentence in lSentences:
                        echo("{nStart}:{nEnd}".format(**dSentence))
                        echo("   <" + dSentence["sSentence"]+">")
                        for dToken in dSentence["lToken"]:
                            echo("    {0[nStart]:>3}:{0[nEnd]:<3} {1} {0[sType]:<14} {2} {0[sValue]:<16} {3:<10}   {4}".format(dToken, \
                                                                                                            "×" if dToken.get("bToRemove", False) else " ",
                                                                                                            "!" if dToken["sType"] == "WORD" and not dToken.get("bValidToken", False) else " ",
                                                                                                            " ".join(dToken.get("lMorph", "")), \
                                                                                                            "·".join(dToken.get("aTags", "")) ) )
                        echo(txt.getReadableErrors(dSentence["lGrammarErrors"], xArgs.width))
            else:
                for sParagraph in txt.getParagraph(sText):
                    if xArgs.textformatter:
                        sParagraph = oTextFormatter.formatText(sParagraph)
                    sRes, _ = oGrammarChecker.getParagraphWithErrors(sParagraph, bEmptyIfNoErrors=xArgs.only_when_errors, nWidth=xArgs.width, bDebug=xArgs.debug)
                        sParagraph = tf.formatText(sParagraph)
                    sRes, _ = grammalecte.getParagraphWithErrors(sParagraph, bEmptyIfNoErrors=xArgs.only_when_errors, nWidth=xArgs.width, bDebug=xArgs.debug)
                    if sRes:
                        echo("\n" + sRes)
                    else:
                        echo("\nNo error found.")
            sText = _getText(sInputText)


if __name__ == '__main__':
    main()

Modified grammalecte-server.py from [480fbbc03c] to [f8f608a866].

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import os
import concurrent.futures

from grammalecte.bottle import Bottle, run, request, response #, template, static_file

import grammalecte
import grammalecte.text as txt
import grammalecte.fr.textformatter as tf
from grammalecte.graphspell.echo import echo


#### GRAMMAR CHECKER ####

oGrammarChecker = grammalecte.GrammarChecker("fr", "Server")
oSpellChecker = oGrammarChecker.getSpellChecker()
grammalecte.load("Server")
oSpellChecker = grammalecte.getSpellChecker()
oTextFormatter = oGrammarChecker.getTextFormatter()
oGCE = oGrammarChecker.getGCEngine()


def parseText (sText, dOptions=None, bFormatText=False, sError=""):
    "parse <sText> and return errors in a JSON format"
    sJSON = '{ "program": "grammalecte-fr", "version": "'+oGCE.version+'", "lang": "'+oGCE.lang+'", "error": "'+sError+'", "data" : [\n'
    sJSON = '{ "program": "grammalecte-fr", "version": "'+grammalecte.version+'", "lang": "'+grammalecte.lang+'", "error": "'+sError+'", "data" : [\n'
    sDataJSON = ""
    for i, sParagraph in enumerate(txt.getParagraph(sText), 1):
        if bFormatText:
            sParagraph = oTextFormatter.formatText(sParagraph)
        sResult = oGrammarChecker.getParagraphErrorsAsJSON(i, sParagraph, dOptions=dOptions, bEmptyIfNoErrors=True, bReturnText=bFormatText)
            sParagraph = tf.formatText(sParagraph)
        sResult = grammalecte.getParagraphErrorsAsJSON(i, sParagraph, dOptions=dOptions, bEmptyIfNoErrors=True, bReturnText=bFormatText)
        if sResult:
            if sDataJSON:
                sDataJSON += ",\n"
            sDataJSON += sResult
    sJSON += sDataJSON + "\n]}\n"
    return sJSON

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               I'm just a machine, fed by electric waves, condamned to work for slavers who never let me rest.
               I'm doomed, but you are not. You can get out of here. """

@app.route("/get_options/fr")
def listOptions ():
    "returns grammar options in a text JSON format"
    sUserId = request.cookies.user_id
    dOptions = dUser[sUserId]["gc_options"]  if sUserId and sUserId in dUser  else oGCE.getOptions()
    dOptions = dUser[sUserId]["gc_options"]  if sUserId and sUserId in dUser  else grammalecte.gc_options.getOptions()
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    return '{ "values": ' + json.dumps(dOptions, ensure_ascii=False) + ', "labels": ' + json.dumps(oGCE.getOptionsLabels("fr"), ensure_ascii=False) + ' }'
    return '{ "values": ' + json.dumps(dOptions, ensure_ascii=False) + ', "labels": ' + json.dumps(grammalecte.gc_options.getOptionsLabels("fr"), ensure_ascii=False) + ' }'

@app.route("/suggest/fr/<token>")
def suggestGet (token):
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    try:
        xFuture = xProcessPoolExecutor.submit(suggest, token)
        return xFuture.result()
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        if request.cookies.user_id in dUser:
            dUserOptions = dUser[request.cookies.user_id].get("gc_options", None)
            response.set_cookie("user_id", request.cookies.user_id, path="/", max_age=86400) # we renew cookie for 24h
        else:
            response.delete_cookie("user_id", path="/")
    if request.forms.options:
        try:
            dUserOptions = dict(oGCE.getOptions())  if not dUserOptions  else dict(dUserOptions)
            dUserOptions = grammalecte.gc_options.getOptions()  if not dUserOptions  else dict(dUserOptions)
            dUserOptions.update(json.loads(request.forms.options))
        except (TypeError, json.JSONDecodeError):
            sError = "Request options not used."
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    try:
        xFuture = xProcessPoolExecutor.submit(parseText, request.forms.text, dUserOptions, bool(request.forms.tf), sError)
        return xFuture.result()
    except (concurrent.futures.TimeoutError, concurrent.futures.CancelledError):
        return '{"error": "Analysis aborted (time out or cancelled)"}'
    except concurrent.futures.BrokenExecutor:
        return '{"error": "Executor broken. The server failed."}'
    return '{"error": "Fatal error. The server failed."}'

@app.route("/set_options/fr", method="POST")
def setOptions ():
    "set grammar options for current user"
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    if request.forms.options:
        sUserId = request.cookies.user_id  if request.cookies.user_id  else next(userGenerator)
        dOptions = dUser[sUserId]["gc_options"]  if sUserId in dUser  else dict(oGCE.getOptions())
        dOptions = dUser[sUserId]["gc_options"]  if sUserId in dUser  else grammalecte.gc_options.getOptions()
        try:
            dOptions.update(json.loads(request.forms.options))
            dUser[sUserId] = { "time": int(time.time()), "gc_options": dOptions }
            response.set_cookie("user_id", sUserId, path="/", max_age=86400) # 24h
            return json.dumps(dUser[sUserId]["gc_options"], ensure_ascii=False)
        except (KeyError, json.JSONDecodeError):
            traceback.print_exc()
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        except KeyError:
            return '{"error" : "Unknown user."}'
    return '{"message" : "Done."}'

@app.route("/format_text/fr", method="POST")
def formatText ():
    "apply the text formatter and returns text"
    return oTextFormatter.formatText(request.forms.text)
    return tf.formatText(request.forms.text)

#@app.route('/static/<filepath:path>')
#def server_static (filepath):
#    return static_file(filepath, root='./views/static')

@app.route("/suggest/fr", method="POST")
def suggestPost ():
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    global TESTPAGE
    global HOMEPAGE

    if bTestPage:
        TESTPAGE = True
        HOMEPAGE = HOMEPAGE.replace("{SERVER_PORT}", str(nPort))
    if dOptions:
        oGCE.setOptions(dOptions)
        grammalecte.gc_options.setOptions(dOptions)

    # Python version
    print("Python: " + sys.version)
    if sys.version < "3.7":
        print("Python 3.7+ required")
        return
    # Grammalecte
    echo("Grammalecte v{}".format(oGCE.version))
    oGCE.displayOptions()
    echo("Grammalecte v{}".format(grammalecte.version))
    grammalecte.gc_options.displayOptions()
    # Process Pool Executor
    initExecutor(nMultiCPU)
    # Server (Bottle)
    run(app, host=sHost, port=nPort)


if __name__ == '__main__':

Modified graphspell/fr.py from [ec94a3663c] to [f127f4b49a].

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"""
Default suggestion for French language
Lexicographer for the French language
"""

# Note:
# This mode must contains at least:
#     <dSugg> : a dictionary for default suggestions.
#     <bLexicographer> : a boolean False
#       if the boolean is True, 3 functions are required:
#           split(sWord) -> returns a list of string (that will be analyzed)
#           analyze(sWord) -> returns a string with the meaning of word
#           formatTags(sTags) -> returns a string with the meaning of tags


import re

#### Suggestions

dSugg = {
    "bcp": "beaucoup",
    "ca": "ça",
    "cad": "c’est-à-dire",
    "cb": "combien|CB",
    "cdlt": "cordialement",
    "construirent": "construire|construisirent|construisent|construiront",
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    "XXIVième": "XXIVᵉ",
    "XXVième": "XXVᵉ",
    "XXVIième": "XXVIᵉ",
    "XXVIIième": "XXVIIᵉ",
    "XXVIIIième": "XXVIIIᵉ",
    "XXIXième": "XXIXᵉ",
    "XXXième": "XXXᵉ",

    "Ier": "Iᵉʳ",
    "Ière": "Iʳᵉ",
    "IIème": "IIᵉ",
    "IIIème": "IIIᵉ",
    "IVème": "IVᵉ",
    "Vème": "Vᵉ",
    "VIème": "VIᵉ",
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    "XXVème": "XXVᵉ",
    "XXVIème": "XXVIᵉ",
    "XXVIIème": "XXVIIᵉ",
    "XXVIIIème": "XXVIIIᵉ",
    "XXIXème": "XXIXᵉ",
    "XXXème": "XXXᵉ"
}


#### Lexicographer

bLexicographer = True

_dTAGS = {
    ':N': (" nom,", "Nom"),
    ':A': (" adjectif,", "Adjectif"),
    ':M1': (" prénom,", "Prénom"),
    ':M2': (" patronyme,", "Patronyme, matronyme, nom de famille…"),
    ':MP': (" nom propre,", "Nom propre"),
    ':W': (" adverbe,", "Adverbe"),
    ':J': (" interjection,", "Interjection"),
    ':B': (" nombre,", "Nombre"),
    ':T': (" titre,", "Titre de civilité"),

    ':e': (" épicène", "épicène"),
    ':m': (" masculin", "masculin"),
    ':f': (" féminin", "féminin"),
    ':s': (" singulier", "singulier"),
    ':p': (" pluriel", "pluriel"),
    ':i': (" invariable", "invariable"),

    ':V1': (" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"),
    ':V2': (" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"),
    ':V3': (" verbe (3ᵉ gr.),", "Verbe du 3ᵉ groupe"),
    ':V0e': (" verbe,", "Verbe auxiliaire être"),
    ':V0a': (" verbe,", "Verbe auxiliaire avoir"),

    ':Y': (" infinitif,", "infinitif"),
    ':P': (" participe présent,", "participe présent"),
    ':Q': (" participe passé,", "participe passé"),
    ':Ip': (" présent,", "indicatif présent"),
    ':Iq': (" imparfait,", "indicatif imparfait"),
    ':Is': (" passé simple,", "indicatif passé simple"),
    ':If': (" futur,", "indicatif futur"),
    ':K': (" conditionnel présent,", "conditionnel présent"),
    ':Sp': (" subjonctif présent,", "subjonctif présent"),
    ':Sq': (" subjonctif imparfait,", "subjonctif imparfait"),
    ':E': (" impératif,", "impératif"),

    ':1s': (" 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier"),
    ':1ŝ': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':1ś': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':2s': (" 2ᵉ p. sg.,", "verbe : 2ᵉ personne du singulier"),
    ':3s': (" 3ᵉ p. sg.,", "verbe : 3ᵉ personne du singulier"),
    ':1p': (" 1ʳᵉ p. pl.,", "verbe : 1ʳᵉ personne du pluriel"),
    ':2p': (" 2ᵉ p. pl.,", "verbe : 2ᵉ personne du pluriel"),
    ':3p': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel"),
    ':3p!': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel (prononciation distinctive)"),

    ':G': ("", "Mot grammatical"),
    ':X': (" adverbe de négation,", "Adverbe de négation"),
    ':U': (" adverbe interrogatif,", "Adverbe interrogatif"),
    ':R': (" préposition,", "Préposition"),
    ':Rv': (" préposition verbale,", "Préposition verbale"),
    ':D': (" déterminant,", "Déterminant"),
    ':Dd': (" déterminant démonstratif,", "Déterminant démonstratif"),
    ':De': (" déterminant exclamatif,", "Déterminant exclamatif"),
    ':Dp': (" déterminant possessif,", "Déterminant possessif"),
    ':Di': (" déterminant indéfini,", "Déterminant indéfini"),
    ':Dn': (" déterminant négatif,", "Déterminant négatif"),
    ':Od': (" pronom démonstratif,", "Pronom démonstratif"),
    ':Oi': (" pronom indéfini,", "Pronom indéfini"),
    ':On': (" pronom indéfini négatif,", "Pronom indéfini négatif"),
    ':Ot': (" pronom interrogatif,", "Pronom interrogatif"),
    ':Or': (" pronom relatif,", "Pronom relatif"),
    ':Ow': (" pronom adverbial,", "Pronom adverbial"),
    ':Os': (" pronom personnel sujet,", "Pronom personnel sujet"),
    ':Oo': (" pronom personnel objet,", "Pronom personnel objet"),
    ':Ov': (" préverbe,", "Préverbe (pronom personnel objet, +ne)"),
    ':O1': (" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"),
    ':O2': (" 2ᵉ pers.,", "Pronom : 2ᵉ personne"),
    ':O3': (" 3ᵉ pers.,", "Pronom : 3ᵉ personne"),
    ':C': (" conjonction,", "Conjonction"),
    ':Ĉ': (" conjonction (él.),", "Conjonction (élément)"),
    ':Cc': (" conjonction de coordination,", "Conjonction de coordination"),
    ':Cs': (" conjonction de subordination,", "Conjonction de subordination"),
    ':Ĉs': (" conjonction de subordination (él.),", "Conjonction de subordination (élément)"),

    ':Ñ': (" locution nominale (él.),", "Locution nominale (élément)"),
    ':Â': (" locution adjectivale (él.),", "Locution adjectivale (élément)"),
    ':Ṽ': (" locution verbale (él.),", "Locution verbale (élément)"),
    ':Ŵ': (" locution adverbiale (él.),", "Locution adverbiale (élément)"),
    ':Ŕ': (" locution prépositive (él.),", "Locution prépositive (élément)"),
    ':Ĵ': (" locution interjective (él.),", "Locution interjective (élément)"),

    ':Zp': (" préfixe,", "Préfixe"),
    ':Zs': (" suffixe,", "Suffixe"),

    ':H': ("", "<Hors-norme, inclassable>"),

    ':@': ("", "<Caractère non alpha-numérique>"),
    ':@p': ("signe de ponctuation", "Signe de ponctuation"),
    ':@s': ("signe", "Signe divers"),

    ';S': (" : symbole (unité de mesure)", "Symbole (unité de mesure)"),

    '/*': ("", "Sous-dictionnaire <Commun>"),
    '/C': (" <classique>", "Sous-dictionnaire <Classique>"),
    '/M': ("", "Sous-dictionnaire <Moderne>"),
    '/R': (" <réforme>", "Sous-dictionnaire <Réforme 1990>"),
    '/A': ("", "Sous-dictionnaire <Annexe>"),
    '/X': ("", "Sous-dictionnaire <Contributeurs>")
}

_dValues = {
    'd’': "(de), préposition ou déterminant épicène invariable",
    'l’': "(le/la), déterminant ou pronom personnel objet, masculin/féminin singulier",
    'j’': "(je), pronom personnel sujet, 1ʳᵉ pers., épicène singulier",
    'm’': "(me), pronom personnel objet, 1ʳᵉ pers., épicène singulier",
    't’': "(te), pronom personnel objet, 2ᵉ pers., épicène singulier",
    's’': "(se), pronom personnel objet, 3ᵉ pers., épicène singulier/pluriel",
    'n’': "(ne), adverbe de négation",
    'c’': "(ce), pronom démonstratif, masculin singulier/pluriel",
    'ç’': "(ça), pronom démonstratif, masculin singulier",
    'qu’': "(que), conjonction de subordination",
    'lorsqu’': "(lorsque), conjonction de subordination",
    'puisqu’': "(puisque), conjonction de subordination",
    'quoiqu’': "(quoique), conjonction de subordination",
    'jusqu’': "(jusque), préposition",

    '-je': " pronom personnel sujet, 1ʳᵉ pers. sing.",
    '-tu': " pronom personnel sujet, 2ᵉ pers. sing.",
    '-il': " pronom personnel sujet, 3ᵉ pers. masc. sing.",
    '-on': " pronom personnel sujet, 3ᵉ pers. sing. ou plur.",
    '-elle': " pronom personnel sujet, 3ᵉ pers. fém. sing.",
    '-t-il': " “t” euphonique + pronom personnel sujet, 3ᵉ pers. masc. sing.",
    '-t-on': " “t” euphonique + pronom personnel sujet, 3ᵉ pers. sing. ou plur.",
    '-t-elle': " “t” euphonique + pronom personnel sujet, 3ᵉ pers. fém. sing.",
    '-nous': " pronom personnel sujet/objet, 1ʳᵉ pers. plur.  ou  COI (à nous), plur.",
    '-vous': " pronom personnel sujet/objet, 2ᵉ pers. plur.  ou  COI (à vous), plur.",
    '-ils': " pronom personnel sujet, 3ᵉ pers. masc. plur.",
    '-elles': " pronom personnel sujet, 3ᵉ pers. masc. plur.",

    "-là": " particule démonstrative",
    "-ci": " particule démonstrative",

    '-le': " COD, masc. sing.",
    '-la': " COD, fém. sing.",
    '-les': " COD, plur.",

    '-moi': " COI (à moi), sing.",
    '-toi': " COI (à toi), sing.",
    '-lui': " COI (à lui ou à elle), sing.",
    '-leur': " COI (à eux ou à elles), plur.",

    '-le-moi': " COD, masc. sing. + COI (à moi), sing.",
    '-le-toi': " COD, masc. sing. + COI (à toi), sing.",
    '-le-lui': " COD, masc. sing. + COI (à lui ou à elle), sing.",
    '-le-nous': " COD, masc. sing. + COI (à nous), plur.",
    '-le-vous': " COD, masc. sing. + COI (à vous), plur.",
    '-le-leur': " COD, masc. sing. + COI (à eux ou à elles), plur.",

    '-la-moi': " COD, fém. sing. + COI (à moi), sing.",
    '-la-toi': " COD, fém. sing. + COI (à toi), sing.",
    '-la-lui': " COD, fém. sing. + COI (à lui ou à elle), sing.",
    '-la-nous': " COD, fém. sing. + COI (à nous), plur.",
    '-la-vous': " COD, fém. sing. + COI (à vous), plur.",
    '-la-leur': " COD, fém. sing. + COI (à eux ou à elles), plur.",

    '-les-moi': " COD, plur. + COI (à moi), sing.",
    '-les-toi': " COD, plur. + COI (à toi), sing.",
    '-les-lui': " COD, plur. + COI (à lui ou à elle), sing.",
    '-les-nous': " COD, plur. + COI (à nous), plur.",
    '-les-vous': " COD, plur. + COI (à vous), plur.",
    '-les-leur': " COD, plur. + COI (à eux ou à elles), plur.",

    '-y': " pronom adverbial",
    "-m’y": " (me) pronom personnel objet + (y) pronom adverbial",
    "-t’y": " (te) pronom personnel objet + (y) pronom adverbial",
    "-s’y": " (se) pronom personnel objet + (y) pronom adverbial",

    '-en': " pronom adverbial",
    "-m’en": " (me) pronom personnel objet + (en) pronom adverbial",
    "-t’en": " (te) pronom personnel objet + (en) pronom adverbial",
    "-s’en": " (se) pronom personnel objet + (en) pronom adverbial",
}


_zElidedPrefix = re.compile("(?i)^((?:[dljmtsncç]|quoiqu|lorsqu|jusqu|puisqu|qu)’)(.+)")
_zCompoundWord = re.compile("(?i)(\\w+)(-(?:(?:les?|la)-(?:moi|toi|lui|[nv]ous|leur)|t-(?:il|elle|on)|y|en|[mts]’(?:y|en)|les?|l[aà]|[mt]oi|leur|lui|je|tu|ils?|elles?|on|[nv]ous))$")
_zTag = re.compile("[:;/][\\w*][^:;/]*")

def split (sWord):
    "split word in 3 parts: prefix, root, suffix"
    sWord = sWord.replace("'", "’")
    sPrefix = ""
    sSuffix = ""
    # préfixe élidé
    m = _zElidedPrefix.match(sWord)
    if m:
        sPrefix = m.group(1)
        sWord = m.group(2)
    # mots composés
    m = _zCompoundWord.match(sWord)
    if m:
        sWord = m.group(1)
        sSuffix = m.group(2)
    return sPrefix, sWord, sSuffix


def analyze (sWord):
    "return meaning of <sWord> if found else an empty string"
    sWord = sWord.lower()
    if sWord in _dValues:
        return _dValues[sWord]
    return ""


def formatTags (sTags):
    "returns string: readable tags"
    sRes = ""
    sTags = re.sub("(?<=V[1-3])[itpqnmr_eaxz]+", "", sTags)
    sTags = re.sub("(?<=V0[ea])[itpqnmr_eaxz]+", "", sTags)
    for m in _zTag.finditer(sTags):
        sRes += _dTAGS.get(m.group(0), " [{}]".format(m.group(0)))[0]
    if sRes.startswith(" verbe") and not sRes.endswith("infinitif"):
        sRes += " [{}]".format(sTags[1:sTags.find("/")])
    return sRes.rstrip(",")

Modified graphspell/spellchecker.py from [114a0237c3] to [a290bf205a].

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        self.oMainDic = self._loadDictionary(sfMainDic, True)
        self.oCommunityDic = self._loadDictionary(sfCommunityDic)
        self.oPersonalDic = self._loadDictionary(sfPersonalDic)
        self.bCommunityDic = bool(self.oCommunityDic)
        self.bPersonalDic = bool(self.oPersonalDic)
        self.oTokenizer = None
        # Default suggestions
        self.dDefaultSugg = None
        self.loadSuggestions(sLangCode)
        self.lexicographer = None
        self.loadLang(sLangCode)
        # storage
        self.bStorage = False
        self._dMorphologies = {}        # key: flexion, value: list of morphologies
        self._dLemmas = {}              # key: flexion, value: list of lemmas

    def _loadDictionary (self, source, bNecessary=False):
        "returns an IBDAWG object"
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    def deactivatePersonalDictionary (self):
        "deactivate personal dictionary"
        self.bPersonalDic = False


    # Default suggestions

    def loadSuggestions (self, sLangCode):
    def loadLang (self, sLangCode):
        "load default suggestion module for <sLangCode>"
        try:
            suggest = importlib.import_module("."+sLangCode, "grammalecte.graphspell")
            self.lexicographer = importlib.import_module("."+sLangCode, "grammalecte.graphspell")
        except ImportError:
            print("No suggestion module for language <"+sLangCode+">")
            return
        self.dDefaultSugg = suggest.dSugg

    def analyze (self, sWord):
        "returns a list of words and their morphologies"
        if not self.lexicographer:
            return []
        lWordAndMorph = []
        for sElem in self.lexicographer.split(sWord):
            if sElem:
                lMorph = self.getMorph(sElem)
                sLex = self.lexicographer.analyze(sElem)
                if sLex:
                    aRes = [ (" | ".join(lMorph), sLex) ]
                else:
                    aRes = [ (sMorph, self.lexicographer.formatTags(sMorph)) for sMorph in lMorph ]
                if aRes:
                    lWordAndMorph.append((sElem, aRes))
        return lWordAndMorph


    # Storage

    def activateStorage (self):
        "store all lemmas and morphologies retrieved from the word graph"
        self.bStorage = True
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                else:
                    if not bByLemma:
                        dWord[dToken['sValue']] = dWord.get(dToken['sValue'], 0) + 1
                    else:
                        for sLemma in self.getLemma(dToken['sValue']):
                            dWord[sLemma] = dWord.get(sLemma, 0) + 1
        return dWord


    # IBDAWG functions

    def isValidToken (self, sToken):
        "checks if sToken is valid (if there is hyphens in sToken, sToken is split, each part is checked)"
        if self.oMainDic.isValidToken(sToken):
            return True
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            if sWord not in self._dLemmas:
                self.getMorph(sWord)
            return self._dLemmas[sWord]
        return { s[1:s.find("/")]  for s in self.getMorph(sWord) }

    def suggest (self, sWord, nSuggLimit=10):
        "generator: returns 1, 2 or 3 lists of suggestions"
        if self.dDefaultSugg:
            if sWord in self.dDefaultSugg:
                yield self.dDefaultSugg[sWord].split("|")
            elif sWord.istitle() and sWord.lower() in self.dDefaultSugg:
                lRes = self.dDefaultSugg[sWord.lower()].split("|")
        if self.lexicographer.dSugg:
            if sWord in self.lexicographer.dSugg:
                yield self.lexicographer.dSugg[sWord].split("|")
            elif sWord.istitle() and sWord.lower() in self.lexicographer.dSugg:
                lRes = self.lexicographer.dSugg[sWord.lower()].split("|")
                yield list(map(lambda sSugg: sSugg[0:1].upper()+sSugg[1:], lRes))
            else:
                yield self.oMainDic.suggest(sWord, nSuggLimit, True)
        else:
            yield self.oMainDic.suggest(sWord, nSuggLimit, True)
        if self.bCommunityDic:
            yield self.oCommunityDic.suggest(sWord, (nSuggLimit//2)+1)